 Drill pipe tool joint and corresponding drill pipe
专利摘要:
A drill pipe tool joint comprising: a pin including a male threaded portion at an outer surface; and a box including a female threaded portion at an inner surface, the female threaded portion to be screwed and fastened to the male threaded portion in a contacting zone consisting of a male threaded contacting surface and a female threaded contacting surface, wherein at least a portion of the male threaded contacting surface or a portion of the female threaded contacting surface is a surface layer consisting of a hard metal and respectively at least a portion of the female threaded contacting surface or a portion of the male threaded contacting surface is a surface layer consisting of a soft material and where said both surface portions are contacting surfaces after screwing 公开号:DK201570442A1 申请号:DK201570442 申请日:2015-07-06 公开日:2015-07-20 发明作者:Tomoyuki Narikawa;Tatsuo Ono;Koji Sakura;Toshihiko Fukui;Motohisa Yoshida;Takeshi Kuwano;Nobuo Kobayashi;Nobuhide Sato 申请人:Tenaris Connections Ltd; IPC主号:
专利说明:
DRILL PIPE TOOL JOINT AND CORRESPONDING DRILL PIPE Technical Field This invention relates to a drill pipe tool joint and a corresponding drill pipe, more particularly, to a drill pipe tool joint and a corresponding drill pipe, which has optimized surface hardness for repeating make-up/break-out operation without the use of a screw grease when drill pipes used in well drilling for oil, natural gas, shale gas, geothermal and the like are screwed together, thereby being environment-friendly, as well as improving operating efficiency. Background Art Drill pipes used in drilling wells for oil, natural gas, and the like have been connected by tool joints. In order for the tool joints to transmit high torque required during drilling, an outer diameter portion thereof is formed to be greater than an outer diameter of a pipe body, while an inner diameter portion thereof is formed to be smaller than an inner diameter of the pipe body. To this end, generally, a make-up torque value during joining a pin and a box of the tool joints is required to be several times a make-up torque value for casing or tubing used in wells for production of oil, natural gas, and the like. On the other hand, for the number of times of make-up/break-out operations of the pin and the box of the threaded joints for the casing or tubing used in wells for production, the number of tripings is not so many. Therefore, for anti-galling (scoring) evaluation testing, International Organization for Standardization standard ISO 13679 defines acceptance/rejection determination in performance evaluation for 2 times of make-up/break-out operation in the casing and for 9 times of make-up/break-out operation in the tubing. However, the drill pipes require drill bit replacement according to drilling conditions of each type such as geological strata, well inclination, depth, and the like. Further, there is no ISO standard definition for the drill pipes, but the galling resistance is expected to be not less than 25 trips, and more preferably not less than 50 trips. For the casing or tubing, a lubricating grease (or dope) to be applied to the pin and the box of the threaded joints has been used for anti-galling, and also a surface treatment such as plating has been employed (see here bellow patent literatures 1 to 7). However, spreading due to tool joint cleaning, excess lubricating grease deposition on well bottom due to coating, rig pollution emission in workplace, etc. may have adverse effects on the environment. Therefore, for environmental consideration, alternative surface coating treatment using no conventional screw lubricating grease, so-called “grease-free” or “dope-free”, i.e., with no lubricating grease (nor dope) to be applied to the pin and the box of the threaded joints, has recently been put into practical use. Following documents have been identified that relate to the said technical field: Patent Literature Citation List Patent Literature 1: W02003-060198 Patent Literature 2: W02005-098300 Patent Literature 3: W02007-026970 Patent Literature 4: W02008-108263 Patent Literature 5: JP-A-2003-074763 Patent Literature 6: U.S. Patent No.4758025 Patent Literature 7: U.S. Patent No.4468309 Patent Literature 1 discloses a tubular member in which at least one of a pin and a box is coated with an alloy of copper and tin which contains 20 wt% to 80 wt% copper. Patent Literature 2 discloses a threaded joint for steel pipes in which at least one of a pin and a box is furnished with a solid lubricant coating comprising a binder, copper powder and lubricating powder at its surface and the other of the pin and the box is coated with zinc or zinc alloy coating. Patent Literature 3 discloses a threaded joint for steel pipes in which Sn-Bi alloy plating or Sn-Bi-Cu alloy plating is formed on at least one of a pin and a box. Patent Literature 4 discloses a screw joint for steel pipe in which at least one of a pin and a box is covered with a first plating layer of Cu-Zn alloy or Cu-Zn-Ml alloy (Ml is at least one selected from among Sn, Bi and In), and a second plating layer of Sn-M2 alloy (M2 is at least one element selected from among Bi, In, Ni, Zn and Cu). Patent Literature 5 discloses a joint for an oil well pipe in which a first plating layer comprising the first to the nth layers of Cu-Sn alloy plating is formed on a box. Patent Literature 6 discloses a method for preventing galling comprising providing a soft metal coating such as an electroless metal conversion coating of Cu or Zn on at least one of a pin and a box, and coating a lubricant agent thereon. Patent Literature 7 discloses a method for resisting galling including depositing a material film having a low shear stress value such as gold, silver, lead, tin, indium, palladium or copper by ion plating on at least one of a pin and a box. Although Patent Literatures 1 to 7 disclose examples of solid lubricant, a technique for achieving repetitive make-up/break-out operations of a drill pipe tool joint for not less than 25 times without any use of a lubricating grease has not been found. Summary of Invention Technical Problem However, as it stands, there exists no substitutable surface coating treatment using no screw lubricating grease for the drill pipe tool joints. There is furthermore a constant need of improving galling resistance and achieving an increasing number of repetitive make-up/break-out operations of a drill pipe tool joint. Accordingly, it is an object of the present invention to provide a drill pipe tool joint and a corresponding drill pipe, which can be subject to repetitive make-up/break-out operations for not less than 25 times without any use of a lubricating grease for avoiding galling, which is environment-friendly, and which does not use a lubricant. Solution to Problem The said technical problem is solved thanks to a drill pipe tool joint comprising: a pin including a male threaded portion at an outer surface; and a box including a female threaded portion at an inner surface, the female threaded portion to be screwed and fastened to the male threaded portion in a contacting zone consisting of a male threaded contacting surface and a female threaded contacting surface, wherein at least a portion of the male threaded contacting surface or a portion of the female threaded contacting surface is a surface layer consisting of a hard metal and respectively at least a portion of the female threaded contacting surface or a portion of the male threaded contacting surface is a surface layer consisting of a soft material and where said both surface portions are contacting surfaces after screwing. The present invention is also directed to a drill pipe comprising: a pipe body; and a pin including a male threaded portion at an outer surface; and a box including a female threaded portion at an inner surface, the female threaded portion to be screwed and fastened to a male threaded portion of another drill pipe of the same kind, in a contacting zone consisting of a male threaded contacting surface and a female threaded contacting surface; wherein at least a portion of the male threaded contacting surface or a portion of the female threaded contacting surface is a surface layer consisting of a hard metal and respectively at least a portion of the female threaded contacting surface or a portion of the male threaded contacting surface is a surface layer consisting of a soft material and where said both surface portions are contacting surfaces after screwing. A plurality of said drill pipes will comprise, after being assembled, a plurality of preceding drill pipe tool joints. Therefore the said drill pipe tool joint and drill pipe relate to a group of inventions so linked as to form a single general inventive concept. The drill pipe tool joint or the drill pipe according to the present invention may also comprise following features that may be combined according to all possible embodiments: the surface layers consisting respectively of a hard metal and of a soft material occupy at least 90% of the contacting zone surfaces; the male threaded contacting surface or the female threaded contacting surface is a surface layer consisting of a hard metal and respectively the female threaded contacting surface or the male threaded contacting surface is a surface layer consisting of a soft material; the hardness of the hard metal is equal or greater than 600 Hv, for example equal or greater than 800 Hv; the hardness of the soft material is equal or lower than 350 Hv, for example equal or greater than 150 Hv; the hardness ratio of the hard metal to the soft material is equal or greater than 2.8, for example equal or greater than 5; the hard metal substantially consists of a metal chosen within the list consisting of chromium (Cr), nickel (Ni), or their mixture; according to an embodiment, said layer of hard metal is obtained through a plating process; according to an embodiment, the layer of hard metal is made of hard chromium plating; according to another embodiment, the layer of hard metal is made non electric nickel plating; the thickness of the layer of hard metal is comprised between 5 to 100 pm, for example equal or greater than 10 pm, for example equal or less than 50 pm; the soft material consists of a metal chosen within the list consisting of copper (Cu), zinc, (Zn), or their mixture; according to an embodiment, said layer of soft material is obtained through a plating process; according to an embodiment, the layer of soft material is made of electrolytic copper or of electrolytic zinc; the soft material substantially consists of a phosphate layer, the thickness of the layer of soft material is comprised between 5 to 100 pm, for example equal or greater than 10 pm, for example equal or less than 50 pm; the drill pipe tool joint is devoid of dope or of lubricant grease; the pin including the male threaded portion and the box including the female threaded portion are devoid of dope or of lubricant grease when being screwed and fastened for assembling. According to the present invention the hardness of a layer is determined as Vickers hardness (Hv). According to the present invention, one has to understand the wordings “hard” and “soft” as relative wordings; a surface layer consisting of a soft material has thus hardness lower than a surface layer consisting of a hard material. The present invention also relates to a method of assembling preceding drill pipes wherein the pins including the male threaded portion and the boxes including the female threaded portion are devoid of dope or of lubricant grease when being screwed and fastened for assembling. Advantageous Effects of Invention According to the invention, it is possible to provide a drill pipe tool joint and a corresponding drill pipe, which can be subject to repetitive make-up/break-out operations for not less than 25 times without any use of lubricating grease for suppressing galling, which is environment-friendly, and which does not use a lubricant. Brief Description of Drawings FIG. 1 is a diagram showing a whole structure of a drill pipe tool joint and a drill pipe with that drill pipe tool joint in an embodiment according to the invention. FIG. 2 is a longitudinal cross-sectional view showing the drill pipe in the embodiment according to the invention. FIG. 3 is a graph showing the relationship between the hardness ratio of the hard metal to the soft material and the number of times of make-up/break-out operation of the drill pipe tool joint in the embodiment according to the invention. FIG.4A is a photograph showing a surface state of a pin after make-up/break-out testing for the drill pipe tool joint in the embodiment according to the invention. FIG. 4B is a photograph showing a surface state of a box after the make-up/break-out testing for the drill pipe tool joint in the embodiment according to the invention. FIG. 5A is a photograph showing a surface state of a pin on which the galling occurred after make-up/break-out testing for a drill pipe tool joint. FIG. 5B is a photograph showing a surface state of a box on which the galling occurred after the make-up/break-out testing for the drill pipe tool joint. Description of Embodiments Structure of drill pipe tool joint FIG. 1 is a diagram showing a whole structure of a drill pipe tool joint and a drill pipe with that drill pipe tool joint, in an embodiment according to the invention. In addition, FIG 2 is a longitudinal cross-sectional view showing the drill pipe in the embodiment according to the invention. The drill pipe tool joint for drilling is defined by the API (American Petroleum Institute) standard, and is formed in several shapes with different details, such as a shape as shown in FIGS. 1 and 2. A drill pipe tool joint 1 in an embodiment according to the invention comprises a pin 2 including a male threaded portion 23 at an outer surface 21, a box 3 including a female threaded portion 33 at an inner surface 31. The female threaded portion 33 is to be screwed and fastened to the male threaded portion 23 in a contacting zone consisting of a male threaded contacting surface and a female threaded contacting surface. At least a portion of the male threaded contacting surface or a portion of the female threaded contacting surface is a surface layer consisting of a hard metal and respectively at least a portion of the female threaded contacting surface or a portion of the male threaded contacting surface is a surface layer consisting of a soft material and said both surface portions are contacting surfaces after screwing. Namely, the screwed surface (21 or 31) of the one of the male threaded portion 23 and the female threaded portion 33 includes a surface layer consisting of a hard metal, while the screwed surface (31 or 21) of the other thereof includes a surface layer consisting of a soft material which is lower in hardness than the surface layer consisting of a hard metal. More concretely, the screwed surface (21 or 31) of the one of the male threaded portion 23 and the female threaded portion 33 has a layer or structure having a first hardness as an outermost surface entirely around the screwed surface thereof, while the screwed surface (31 or 21) of the other thereof has a layer or structure having a second hardness as an outermost surface entirely around the screwed surface thereof, in which the second hardness is lower in hardness than the first hardness. A drill pipe 4 in another embodiment according to the invention comprises a pipe body 50, a pin 2 including a male threaded portion 23 at an outer surface 2land a box 3 including a female threaded portion 33 at an inner surface 31. The female threaded portion is to be screwed and fastened to a male threaded portion of another drill pipe of the same kind, in a contacting zone consisting of a male threaded contacting surface and a female threaded contacting surface. At least a portion of the male threaded contacting surface or a portion of the female threaded contacting surface is a surface layer consisting of a hard metal and respectively at least a portion of the female threaded contacting surface or a portion of the male threaded contacting surface is a surface layer consisting of a soft material and said both surface portions are contacting surfaces after screwing. The drill pipe 4 is used in drilling by fastening (referred to as "make-up") and connecting a plurality of drill pipes 4 with the drill pipe tool joints 1. Here, the drill pipe tool joint 1 comprises the male threaded portion 23 provided at the outer surface 21 of the pin 2 of the drill pipe 4, and the female threaded portion 33 provided at the inner surface 31 of the box 3 of the other drill pipe 4. The male threaded portion 23 provided at the outer surface 21 of the pin 2 of the drill pipe 4 and the female threaded portion 33 provided at the inner surface 31 of the box 3 of the other drill pipe 4 are screwed and fastened together. In addition, the drill pipes 4 are unfastened (referred to as "break-out") as necessity. Therefore, the drill pipes 4 are subject to repetitive make-up/break-out operations at the drill pipe tool joint 1. The male threaded portion 23 formed at the outer surface 21 of the pin 2 includes the surface layer consisting of a hard metal having the first hardness (i.e. hard surface-treated surface), or the surface layer consisting of a soft material having the second hardness provided by a surface layer consisting of a soft material (i.e. soft surface-treated surface), in which the second hardness is lower in hardness than the first hardness. As examples of the hard metal, there are listed chromium plating, hard chromium plating, nickel plating, non-electric nickel plating, etc. Also, as examples of the surface layer consisting of a soft material at the lower hardness than the hard metal surface treatment described above, there are listed a copper plating, electrolytic copper plating, zinc plating, electrolytic zinc plating, etc. Further, surface layer consisting of a soft material is not limited to the plating, but a phosphating such as manganese phosphating and zinc phosphating may be employed, namely a phosphate layer may be formed. According to embodiments of the present invention, the hardness of the hard metal is equal or greater than 600 Hv, for example equal or greater than 800 Hv. According to embodiments of the present invention, the hardness of the soft material is equal or lower than 350 Hv, for example equal or greater than 150 Hv. According to embodiments of the present invention, the thickness of the layer of hard metal is comprised between 5 to 100 pm, for example equal or greater than 10 pm, for example equal or less than 50 pm. According to embodiments of the present invention, the thickness of the layer of soft material is comprised between 5 to 100 pm, for example equal or greater than 10 pm, for example equal or less than 50 pm. On the other hand, the female threaded portion 33 formed at the inner surface 31 of the box 3 has a surface-treated surface which is surface-treated differently from the surface-treated surface of the male threaded portion 23. More concretely, the female treaded portion 33 has a layer or a structure (including metal structure) having the second hardness at its outermost surface. When the male threaded portion 23 has the surface-treated surface having the first hardness, the female threaded portion 33 has the surface-treated surface having the second hardness, which is lower in hardness than the first hardness (i.e. soft surface-treated surface). Alternatively, when the male threaded portion 23 has the surface-treated surface having the second hardness, the female threaded portion 33 has the surface-treated surface having the first hardness. The drill pipes 4 with the male threaded portion 23 and the female threaded portion 33 configured as described above are fastened together with the drill pipe tool joint 1. In other words, the drill pipes 4 are fastened together by screwing the male threaded portion 23 to the female threaded portion 33. The male threaded portion 23 has a surface layer consisting of a soft material or a surface layer consisting of a hard metal as described above, and the female threaded portion 33 has a surface layer consisting of a hard metal or a surface layer consisting of a soft material described above. More concretely, when the male threaded portion 23 has a surface layer consisting of a hard metal, the female threaded portion 33 has a surface layer consisting of a soft material. Alternatively, when the male threaded portion 23 has a surface layer consisting of a soft material, the female threaded portion 33 has a surface layer consisting of a hard metal. In the drill pipe tool joint 1, the male threaded contacting surface or the female threaded contacting surface is a surface layer consisting of a hard metal and respectively the female threaded contacting surface or the male threaded contacting surface is a surface layer consisting of a soft material. Other embodiments within the scope of the present invention may have contacting zone surfaces with surface layers consisting of a hard metal and/or of a soft material occupying only partially the contacting zone surfaces; according to an embodiment, the surface layers consisting respectively of a hard metal and of a soft material occupy at least 90% of the contacting zone surfaces. In the drill pipe tool joint 1 thus configured, even though the make-up/break-out operation is repeatedly performed between the female threaded portion 33 and the male threaded portion 23, the occurrence of so-called "galling" is suppressed. Therefore, the number of times of make-up / break-out operation until the occurrence of galling can be increased. Here, the "galling" represents the state of the damage caused by the contact between the metals. The “advance to galling from seizure (welding)” refers to a state that a contact surface is seized and does not move at the initial seizure then further rotated or moved so that the seized surface exfoliates and is damaged. This galling is likely to occur in the case that a contact surface pressure is high or that an affinity between rubbing metals is high. In the present embodiment, the male threaded portion 23 and the female threaded portion 33 have the surface layer consisting of a hard metal and the surface layer consisting of a soft material that are different in hardness from each other, respectively, so that the affinity between surfaces to be in contact with each other is low. Further, it is preferable to set a hardness ratio of the hard metal to the soft material to be not less than 2.8 as described later. According to an embodiment said hardness ratio of the hard metal to the soft material equal or greater than 5. According to this structure, it is possible to suppress the occurrence of galling, thereby increase the number of times of make-up/break-out operations until the occurrence of galling. It should be noted that the number of times of make-up/break-out operations of the drill pipe tool joint 1 is demanded strictly compared with those of conventional threaded tool joint for a casing and tubing for wells for production, so that the number of times of make-up/break-out operations is preferably not less than 25 times, more preferably not less than 50 times. Examples Make-up/break-out testing In order to carry out an anti-galling evaluation in make-up/break-out operation of the drill pipe tool joint 1, a make-up/break-out testing was conducted by using a drill pipe with a size of 5-1/2FH. The drill pipe of 5-1/2FH has an outer diameter of 7 inches (177.8mm) and an inner diameter of 3.75 inch (95.25mm). Material grade is TJ130 (AISI modified 4135, Yield strength 130-150ksi, Tensile strength Min.l40ksi). Surface treatment area is from comer of the external shoulder through threads to the internal shoulder or internal bevel. After repeating make-up/break-out operations of the drill pipe, the number of times of make-up/break-out operations until the galling occurs at a surface of the male threaded portion 23 or the female threaded portion 33 was evaluated. The evaluation result is preferably not less than 25 times, more preferably not less than 50 times. Table 1 shows the results of the make-up/break-out testing. The combinations of the surface treatments provided on the surfaces of the male threaded portion 23 and the female threaded portion 33 are as follows: the pin is coated with copper plating, chromium plating, or nickel plating, and the box is provided with copper plating, zinc plating, manganese phosphating, or no surface treatment (i.e. as machined without any surface treatment, which is indicated as "none" in the item of "surface treatment"). The number of times of make-up/break-out operations until the occurrence of galling is evaluated for each of these samples. For the plating thickness, a range of not less than 10 pm and less than 30 pm, which is available for industrial purpose, was selected. Table I From the results of Table 1, it was found that in the cases that the pin 2 and the box 3 are provided with a surface layer consisting of a hard metal and a surface layer consisting of a soft material that are different from each other, the make-up/break-out operations without any occurrence of galling can be conducted for not less than 25 times, so that the galling resistance is good (in Examples 1 to 9). Particularly, in the cases that the chromium plating or nickel plating is applied to the pin 2 while the copper plating or zinc plating is applied to the box 3, the make-up/break-out operations without any occurrence of galling can be conducted for not less than 50 times (in Examples 1 to 6). The combination of the surface layer consisting of a hard metal and the surface layer consisting of a soft material, more concretely, the combinations of the chromium plating or nickel plating and the copper plating or zinc plating have the interchangeability so that they may be applied on either side of the box 3 and the pin 2. In Table 1, "Cr plating" is hard Cr plating, "Ni plating" is electroless Ni-P plating, "Cu plating" is electrolytic Cu plating, and "Zn plating" is electrolytic Zn plating. Hardness measurement From the results of the make-up/break-out testing described above, it was found that the galling resistance would be excellent when the pin 2 and the box 3 are provided with the hard surface treatment and soft surface treatment that are different from each other in hardness. Then, the hardness of each of the hard surface treatment and the soft surface treatment was studied as parameter. Table 2 shows the measurement results of the surface hardness of the surface treatment provided for each of the pin 2 and the box 3, in which the hardness in each of Nos. 1 to 6 according to the type of the surface treatment is shown by Vickers hardness (Hv). The Vickers hardness test method was performed in accordance with ISO 6507-1 and ISO 6507-4. The measurement was carried out for plural times, and an average value thereof is shown as the hardness (average Hv). Further, in the case of plating, the hardness of the plating material itself can be used instead of the measured value as the hardness of each surface treatment. As described above, the type of the surface treatment corresponds to the type of the surface treatment in Examples 1 to 9 and comparative examples 1 to 8 in Table 1. Table 2 The relationship between the hardness ratio of the hard metal to the soft material and the number of times of make-up/break-out operations is now' discussed. FIG. 3 is a graph showing the relationship between the hardness ratio of the hard metal to the soft material and the number of times of make-up/break-out from the results in Table 1 and Table 2. According to FIG. 3, when the hardness ratio of the hard metal to the soft material is not less than 2.8, the number of times of make-up/break-out operations without any occurrence of galling is increased to be not less than 25 times. Results are furthermore increased when the hardness ratio of the hard metal to the soft material is equal or greater to 5, as for an example equal or greater than 6. FIG. 4A is a photograph showing a surface state of a pin after make-up/break-out testing for the drill, pipe tool joint in the embodiment according to the invention, and FIG. 4B is a photograph showing a surface state of a box after the make-up/break-out testing for the drill pipe tool joint in the embodiment according to the invention. FIG. 5A is a photograph showing a surface state of a pin on which the galling occurred after make-up/break-out testing for a drill pipe tool joint, and FIG. 5B is a photograph showing a surface state of a box on which the galling occurred after the make-up/break-out test ing for the drill pipe tool joint. In the make-up/break-out testing as shown in Table 1, no galling occurred at the chromium plated surface of the pin 2 and the copper plated surface of the box 3 even after repeating the make-up/break-out operation for not less than 50 times as shown in FIGS. 4A and 4B. On the contrary, in the make-up/break-out testing as shown in Table 1, galling occurred at a conventionally-used copper plated surface (plating thickness of 10-20 pm) of the pin 2 and the heavier copper plated surface (plating thickness of 2 0 - 3 0 pm) of the box 3 after repeating the make-up/break-out operation for around 10 times as shown in Figs. 5A and 5B. Advantages of the embodiment of the present invention are further exemplified. According to the drill pipe tool joint and the corresponding drill pipe in the embodiment of the present invention, following advantages can be achieved. (1) In the present embodiment, the male threaded portion 23 and the female threaded portion 33 have the surface layer consisting of a hard metal and the surface layer consisting of a soft material that are different in hardness from each other, respectively. Since the male threaded portion 23 and the female threaded portion 33 have the surface-treated surfaces having the different hardness, e.g., the combination of chromium plating and copper plating, respectively, the affinity between screwed surfaces in contact with each other is low. Thus, even though the make-up/break-out operation is performed repeatedly between the male threaded portion 23 and the female threaded portion 33, the occurrence of so-called "galling" can be suppressed. Therefore, the number of times of make-up/break-out operations until the occurrence of galling can be increased. (2) From the relationship between the hardness ratio of the hard metal to the soft material and the number of times of make-up/break-out operations as shown in Fig. 3, it is confirmed that when the hardness ratio of the hard metal to the soft material is not less than 2.8, the number of times of make-up/break-out operations without any occurrence of galling is increased, particularly, the make-up/break-out operations for not less than 25 times as a practicable range for the drill pipe tool joint is possible. In the case that chromium plating or nickel plating is applied to the pin 2 while copper plating is applied to the box 3, the make-up/break-out operations until the occurrence of galling for not less than 50 times can be achieved. (3) By applying the combination of the surface treatment with different hardness such as the combination of chromium plating and copper plating to the pin 2 and the box 3, the conventionally-used lubricating grease (or dope) is no longer required to be applied to the pin 2 and the box 3. Therefore, it is possible to achieve an environment-friendly drill pipe tool joint and a drill pipe with the same. (4) By applying the combination of surface-treated surfaces having the hardness ratio of the hard metal to the soft material of not less than 2.8 to the screwed surfaces of the pin 2 and the box 3 that are subject to repetitive make-up/break-out operations, it is possible to achieve a significant advantage that the number of times of make-up/break-out operations without any occurrence of galling increases. From the graph of Fig. 3, it is understood that the hardness ratio of the hard metal to the soft material of 2.8 has a criticality, since the number of times of make-up/break-out operations without any occurrence of galling significantly changes before and after the hardness ratio of the hard metal to the soft material of 2.8. As shown by figure 3, results are furthermore increased when the hardness ratio of the hard metal to the soft material is equal or greater to 5, as for an example equal or greater than 6. Although the invention has been described with respect to the specific embodiments, these embodiments are merely examples and do not limit the invention according to claims. These novel embodiments and modifications can be enforced in other various manners, and various omissions, replacements, alterations and the like may be made without going beyond the gist of the invention. All the combinations of the features described in the embodiments are not necessarily essential for the means for solving the problem of the Invention. Further, these embodiments and modifications are included in the scope and gist of the invention and the scope of the inventions described in claims and their equivalents. Industrial Applicability A drill pipe tool joint and a corresponding drill pipe according to the present invention can be used without the use of a screw grease when the make-up/break-out operations of the drill pipe are performed for not less than 25 times, thereby being environment-friendly, as well as improving operating efficiency. References Signs List 1 Drill pipe tool joint 2 Pin 3 Box 4 Drill pipe 21 Outer surface of Pin 23 Male threaded portion 31 Inner surface of Box 33 Female threaded portion 50 Pipe body
权利要求:
Claims (15) [1] 1. A drill pipe tool joint (1) comprising: a pin (2) including a male threaded portion (23) at an outer surface (21); and a box (3) including a female threaded portion (33) at an inner surface (31), the female threaded portion to be screwed and fastened to the male threaded portion in a contacting zone consisting of a male threaded contacting surface and a female threaded contacting surface; wherein at least a portion of the male threaded contacting surface or a portion of the female threaded contacting surface is a surface layer consisting of a hard metal and respectively at least a portion of the female threaded contacting surface or a portion of the male threaded contacting surface is a surface layer consisting of a soft material and where said both surface portions are contacting surfaces after screwing. [2] 2. A drill pipe (4) comprising: a pipe body (50); and a pin (2) including a male threaded portion (23) at an outer surface (21); and a box (3) including a female threaded portion (33) at an inner surface (31), the female threaded portion to be screwed and fastened to a male threaded portion of another drill pipe of the same kind, in a contacting zone consisting of a male threaded contacting surface and a female threaded contacting surface; wherein at least a portion of the male threaded contacting surface or a portion of the female threaded contacting surface is a surface layer consisting of a hard metal and respectively at least a portion of the female threaded contacting surface or a portion of the male threaded contacting surface is a surface layer consisting of a soft material and where said both surface portions are contacting surfaces after screwing. [3] 3. The drill pipe tool joint or the drill pipe according to respectively claim 1 and 2 wherein the surface layers consisting respectively of a hard metal and of a soft material occupy at least 90% of the contacting zone surfaces. [4] 4. The drill pipe tool joint or the drill pipe according to respectively claim 1 and 2 wherein the male threaded contacting surface or the female threaded contacting surface is a surface layer consisting of a hard metal and respectively the female threaded contacting surface or the male threaded contacting surface is a surface layer consisting of a soft material. [5] 5. The drill pipe tool joint or the drill pipe according to respectively claim 1 and 2 or to any of claims 3 to 4 wherein the hardness of the hard metal is equal or greater than 600 Hv, for example equal or greater than 800 Hv. [6] 6. The drill pipe tool joint or the drill pipe according to respectively claim 1 and 2 or to any of claims 3 to 5 wherein the hardness of the soft material is equal or lower than 350 Hv, for example equal or greater than 150 Hv. [7] 7. The drill pipe tool joint or the drill pipe according to respectively claim 1 and 2 or to any of claims 3 to 6, wherein the hardness ratio of the hard metal to the soft material is equal or greater than 2.8, for example equal or greater than 5. [8] 8. The drill pipe tool joint or the drill pipe according to respectively claim 1 and 2 or to any of claims 3 to 7, wherein the hard metal substantially consists of a metal chosen within the list consisting of chromium (Cr), nickel (Ni), or their mixture. [9] 9. The drill pipe tool joint or the drill pipe according to preceding claim wherein the layer of hard metal is obtained through a plating process. [10] 10. The drill pipe tool joint or the drill pipe according to respectively claim 1 and 2 or to any of claims 3 to 9 wherein the thickness of the layer of hard metal is comprised between 5 to 100 pm, for example equal or greater than 10 pm, for example equal or less than 50 pm. [11] 11. The drill pipe tool joint or the drill pipe according to respectively claim 1 and 2 or to any of claims 3 to 10, wherein the soft material consists of a metal chosen within the list consisting of copper (Cu), zinc, (Zn), or their mixture. [12] 12. The drill pipe tool joint or the drill pipe according to preceding claim wherein the layer of soft material is obtained through a plating process. [13] 13. The drill pipe tool joint or the drill pipe according to respectively claim 1 and 2 or to any of claims 3 to 9, wherein the soft material substantially consists of a phosphate layer. [14] 14. The drill pipe tool joint or the drill pipe according to respectively claim 1 and 2 or to any of claims 3 to 13 wherein the thickness of the layer of soft material is comprised between 5 to 100 pm, for example equal or greater than 10 pm, for example equal or less than 50 pm. [15] 15. A method of assembling drill pipes according to any of preceding claims wherein the pins including the male threaded portion and the boxes including the female threaded portion are devoid of dope or of lubricant grease when being screwed and fastened for assembling.
类似技术:
公开号 | 公开日 | 专利标题 DK178916B1|2017-05-22|Drill pipe tool joint EP0786616B1|2002-07-31|Steel pipe joint having high galling resistance and surface treatment method thereof JP4924103B2|2012-04-25|Threaded joint for oil well pipe CA2621036C|2011-11-01|Threaded joint for steel pipes EP1458908B1|2008-06-04|A tubular member having an anti-galling coating JP4680446B2|2011-05-11|Oil well steel pipe fittings JP6746492B2|2020-08-26|Abutting structure for tubular components covered with metal composite deposits and method of making the same AU2016251610A1|2017-09-14|Threaded tubular element provided with a metallic anti-corrosion and anti-galling coating US10274112B2|2019-04-30|Threaded connection EP2935651A1|2015-10-28|Pipe connector and method CN207161000U|2018-03-30|A kind of tool joint for being provided with tungsten nickel coating screw thread RU68090U1|2007-11-10|DRILL PIPE WITH CONNECTING LOCKS BR112016006393B1|2021-11-09|STOP FOR A TUBULAR COMPONENT AND TUBULAR COMPONENT OA17798A|2017-12-18|Abutment for a tubular component overlaid with a metallic composite deposit and method for making it.
同族专利:
公开号 | 公开日 GB2525337A|2015-10-21| US20150368986A1|2015-12-24| AU2013372439B2|2018-03-01| CA2897451C|2019-10-01| BR112015016765A2|2017-07-11| JP6204496B2|2017-09-27| US9970242B2|2018-05-15| GB201512193D0|2015-08-19| AR094472A1|2015-08-05| JP2016511807A|2016-04-21| DK178916B1|2017-05-22| GB2525337B|2016-06-22| WO2014108756A1|2014-07-17| CN104903538B|2018-05-08| AU2013372439A1|2015-07-23| CA2897451A1|2014-07-17| NO20150898A1|2015-07-09| MX2015008990A|2015-10-14| CN104903538A|2015-09-09|
引用文献:
公开号 | 申请日 | 公开日 | 申请人 | 专利标题 US141451A|1873-08-05|Improvement in apparatus for sausage-stuffing and other purposes | US1590357A|1925-01-14|1926-06-29|John F Penrose|Pipe joint| US1671458A|1925-05-19|1928-05-29|Guiberson Corp|Rod joint| US1799762A|1929-01-23|1931-04-07|Ingersoll Rand Co|Pipe coupling| US1999706A|1934-01-25|1935-04-30|Ferdinand J Spang|Coupling| US2075427A|1936-12-28|1937-03-30|W L Pearce|Pipe joint| GB498472A|1937-07-05|1939-01-05|William Reuben Webster|Improvements in or relating to a method of and apparatus for heat treating metal strip, wire or flexible tubing| US2211173A|1938-06-06|1940-08-13|Ernest J Shaffer|Pipe coupling| US2539057A|1944-09-02|1951-01-23|Chicago Pneumatic Tool Co|Tool joint| US2487241A|1947-01-16|1949-11-08|Lewis D Hilton|Thread seal and buffer gasket for pipe couplings| US2634943A|1947-04-02|1953-04-14|Eljer Company|Faucet| US2636753A|1948-04-19|1953-04-28|Claude L Griffin|Tool joint-pipe connection| US2631871A|1949-04-30|1953-03-17|Albert L Stone|Pressure responsive pipe joint seal| US2567113A|1949-05-28|1951-09-04|Kristensen Einer|Pipe coupling| US2766998A|1953-04-07|1956-10-16|Gray Tool Co|Conduit connection with conically formed interengaging seats on seal and connection members| US3054628A|1954-06-08|1962-09-18|Atlas Bradford Company|Pipe coupling having a teflon sealing gasket| FR1149513A|1955-07-25|1957-12-27|Elastic joint for pipes| US2841429A|1955-10-04|1958-07-01|Parker Hannifin Corp|Sealing ring and joint| US2916306A|1957-01-11|1959-12-08|Mcdowell Mfg Co|Pipe in socket coupling having loose thread connecting means| US2992021A|1958-02-26|1961-07-11|American Iron & Machine Works|Pipe connection| US3016250A|1958-08-15|1962-01-09|Imp Eastman Corp|Fitting| US3041088A|1959-06-18|1962-06-26|Jr Ira M Brandon|Coupling assembly| US2992613A|1960-08-30|1961-07-18|Albert G Bodine|Sonic well pump tubing string| US3150889A|1960-10-11|1964-09-29|Gray Tool Co|Coupling with rigidly fixed sealing ring| US3219354A|1962-03-28|1965-11-23|Johns Manville|Pipe joint| US3316395A|1963-05-23|1967-04-25|Credit Corp Comp|Credit risk computer| US3366392A|1964-09-16|1968-01-30|Budd Co|Piston seal| US3325174A|1964-11-16|1967-06-13|Woodward Iron Company|Pipe joint packing| US3307860A|1965-01-15|1967-03-07|Mobil Oil Corp|Joint for liner-carrying well pipe| US3266824A|1965-02-04|1966-08-16|Robert H Nealy|Coupling| US3413166A|1965-10-15|1968-11-26|Atomic Energy Commission Usa|Fine grained steel and process for preparation thereof| FR1489013A|1965-11-05|1967-07-21|Vallourec|Assembly joint for metal pipes| US3316396A|1965-11-15|1967-04-25|E W Gilson|Attachable signal light for drinking glass| US3362731A|1965-11-22|1968-01-09|Autoclave Eng Inc|High pressure fitting| US3512789A|1967-03-31|1970-05-19|Charles L Tanner|Cryogenic face seal| US3592491A|1968-04-10|1971-07-13|Hepworth Iron Co Ltd|Pipe couplings| NO126755B|1968-05-28|1973-03-19|Raufoss Ammunisjonsfabrikker| US3575430A|1969-01-10|1971-04-20|Certain Teed Prod Corp|Pipe joint packing ring having means limiting assembly movement| US3655465A|1969-03-10|1972-04-11|Int Nickel Co|Heat treatment for alloys particularly steels to be used in sour well service| US3572777A|1969-05-05|1971-03-30|Armco Steel Corp|Multiple seal, double shoulder joint for tubular products| US3599931A|1969-09-11|1971-08-17|G P E Controls Inc|Internal safety shutoff and operating valve| DE2111568A1|1971-03-10|1972-09-28|Georg Seiler|Pull and shear protection for screw socket connections of pipes| DE2131318C3|1971-06-24|1973-12-06|Fried. Krupp Huettenwerke Ag, 4630 Bochum|Process for the production of a reinforcement steel bar for prestressed concrete| FR2173460A5|1972-02-25|1973-10-05|Vallourec| FR2190237A5|1972-06-16|1974-01-25|Vallourec| FR2190238A5|1972-06-16|1974-01-25|Vallourec| GB1473389A|1973-05-09|1977-05-11|Dexploitation Des Brevets Ocla|Pipe couplings| US3893919A|1973-10-31|1975-07-08|Josam Mfg Co|Adjustable top drain and seal| US3918726A|1974-01-28|1975-11-11|Jack M Kramer|Flexible seal ring| US4163290A|1974-02-08|1979-07-31|Optical Data System|Holographic verification system with indexed memory| US3891224A|1974-03-20|1975-06-24|Lok Corp A|Joint assembly for vertically aligned sectionalized manhole structures incorporating D-shaped gaskets| US4147368A|1974-04-05|1979-04-03|Humes Limited|Pipe seal| US4014568A|1974-04-19|1977-03-29|Ciba-Geigy Corporation|Pipe joint| US3915697A|1975-01-31|1975-10-28|Centro Speriment Metallurg|Bainitic steel resistant to hydrogen embrittlement| US3986731A|1975-09-22|1976-10-19|Amp Incorporated|Repair coupling| NO140752C|1977-08-29|1979-11-07|Rieber & Son As|COMBINED MOLDING AND SEALING ELEMENT FOR USE IN A SLEEVE END IN THERMOPLASTROS| DE2917287C2|1978-04-28|1986-02-27|Neturen Co. Ltd., Tokio/Tokyo|Process for the manufacture of coil springs, torsion bars or the like from spring steel wire| US4231555A|1978-06-12|1980-11-04|Horikiri Spring Manufacturing Co., Ltd.|Bar-shaped torsion spring| US4219204B1|1978-11-30|1985-02-26| EP0021349B1|1979-06-29|1985-04-17|Nippon Steel Corporation|High tensile steel and process for producing the same| FR2468823B1|1979-10-30|1984-08-24|Vallourec| JPS5680367A|1979-12-06|1981-07-01|Nippon Steel Corp|Restraining method of cracking in b-containing steel continuous casting ingot| US4305059A|1980-01-03|1981-12-08|Benton William M|Modular funds transfer system| US4310163A|1980-01-10|1982-01-12|Utex Industries, Inc.|Anti-extrusion seals and packings| CA1148193A|1980-01-11|1983-06-14|Kornelis N. Zijlstra|Coupling for interconnecting pipe sections and pipesection for well drilling operations| US5348350A|1980-01-19|1994-09-20|Ipsco Enterprises Inc.|Pipe coupling| US4384737A|1980-04-25|1983-05-24|Republic Steel Corporation|Threaded joint for well casing and tubing| NO801521L|1980-05-22|1981-11-23|Rieber & Son As|ARMED SEALING RING.| US4345739A|1980-08-07|1982-08-24|Barton Valve Company|Flanged sealing ring| US4366971A|1980-09-17|1983-01-04|Allegheny Ludlum Steel Corporation|Corrosion resistant tube assembly| US4376528A|1980-11-14|1983-03-15|Kawasaki Steel Corporation|Steel pipe hardening apparatus| US4445265A|1980-12-12|1984-05-01|Smith International, Inc.|Shrink grip drill pipe fabrication method| US4354882A|1981-05-08|1982-10-19|Lone Star Steel Company|High performance tubulars for critical oil country applications and process for their preparation| JPS6057519B2|1981-08-20|1985-12-16|Sumitomo Metal Ind| US4406561A|1981-09-02|1983-09-27|Nss Industries|Sucker rod assembly| US4426095A|1981-09-28|1984-01-17|Concrete Pipe & Products Corp.|Flexible seal| JPS58187684A|1982-04-27|1983-11-01|Nippon Steel Corp|Steel pipe joint for oil well| JPH0261339B2|1982-04-28|1990-12-19|Nhk Spring Co Ltd| US4706997A|1982-05-19|1987-11-17|Carstensen Kenneth J|Coupling for tubing or casing and method of assembly| US4473471A|1982-09-13|1984-09-25|Purolator Inc.|Filter sealing gasket with reinforcement ring| US4508375A|1982-09-20|1985-04-02|Lone Star Steel Company|Tubular connection| US4491725A|1982-09-29|1985-01-01|Pritchard Lawrence E|Medical insurance verification and processing system| US4527815A|1982-10-21|1985-07-09|Mobil Oil Corporation|Use of electroless nickel coating to prevent galling of threaded tubular joints| US4662659A|1983-01-17|1987-05-05|Hydril Company|Tubular joint with trapped mid-joint metal-to-metal seal having unequal tapers| AT30062T|1983-01-17|1987-10-15|Hydril Co|PIPE CONNECTION WITH INTERMEDIATE METAL-TO-METAL GASKET.| US4570982A|1983-01-17|1986-02-18|Hydril Company|Tubular joint with trapped mid-joint metal-to-metal seal| DK162684A|1983-03-22|1984-11-02|Friedrichsfeld Gmbh|ROOM PART OR FITTING| DE3310226C2|1983-03-22|1985-08-22|Friedrichsfeld Gmbh, Steinzeug- Und Kunststoffwerke, 6800 Mannheim|Pipe part or fitting| US4475839A|1983-04-07|1984-10-09|Park-Ohio Industries, Inc.|Sucker rod fitting| US4468309A|1983-04-22|1984-08-28|White Engineering Corporation|Method for resisting galling| DE3322134A1|1983-06-20|1984-12-20|WOCO Franz-Josef Wolf & Co, 6483 Bad Soden-Salmünster|CYLINDRICAL SEAL| JPS6024353A|1983-07-20|1985-02-07|Japan Steel Works Ltd:The|Heat-resistant 12% cr steel| JPS6025719A|1983-07-23|1985-02-08|Matsushita Electric Works Ltd|Method of molding sandwich| US4591195A|1983-07-26|1986-05-27|J. B. N. Morris|Pipe joint| US4506432A|1983-10-03|1985-03-26|Hughes Tool Company|Method of connecting joints of drill pipe| JPS6086209A|1983-10-14|1985-05-15|Sumitomo Metal Ind Ltd|Manufacture of steel having high resistance against crack by sulfide| US4601491A|1983-10-19|1986-07-22|Vetco Offshore, Inc.|Pipe connector| JPS60116796A|1983-11-30|1985-06-24|Nippon Kokan Kk <Nkk>|Screw joint for oil well pipe of high alloy steel| JPS60174822A|1984-02-18|1985-09-09|Kawasaki Steel Corp|Manufacture of thick-walled seamless steel pipe of high strength| JPS60215719A|1984-04-07|1985-10-29|Nippon Steel Corp|Manufacture of electric welded steel pipe for front fork of bicycle| US4602807A|1984-05-04|1986-07-29|Rudy Bowers|Rod coupling for oil well sucker rods and the like| JPH0231271B2|1984-06-20|1990-07-12|Nippon Kokan Kk| US4688832A|1984-08-13|1987-08-25|Hydril Company|Well pipe joint| US4592558A|1984-10-17|1986-06-03|Hydril Company|Spring ring and hat ring seal| IT1180102B|1984-10-22|1987-09-23|Tako Spa|PROCEDURE FOR THE MANUFACTURE OF REINFORCED SEALS AND PRODUCT OBTAINED WITH THE PROCEDURE| JPS6411105B2|1984-11-28|1989-02-23|Boeicho Gijutsu Kenkyu Honbucho| DE3445371C2|1984-12-10|1987-12-10|Mannesmann Ag, 4000 Duesseldorf, De| US4629218A|1985-01-29|1986-12-16|Quality Tubing, Incorporated|Oilfield coil tubing| US4762344A|1985-01-30|1988-08-09|Lee E. Perkins|Well casing connection| US4988127A|1985-04-24|1991-01-29|Cartensen Kenneth J|Threaded tubing and casing joint| JPS61270355A|1985-05-24|1986-11-29|Sumitomo Metal Ind Ltd|High strength steel excelling in resistance to delayed fracture| DE3666461D1|1985-06-10|1989-11-23|Hoesch Ag|Method and use of a steel for manufacturing steel pipes with a high resistance to acid gases| US4758025A|1985-06-18|1988-07-19|Mobil Oil Corporation|Use of electroless metal coating to prevent galling of threaded tubular joints| US4674756A|1986-04-28|1987-06-23|Draft Systems, Inc.|Structurally supported elastomer sealing element| JPS634047A|1986-06-20|1988-01-09|Sumitomo Metal Ind Ltd|High-tensile steel for oil well excellent in sulfide cracking resistance| JPS634046A|1986-06-20|1988-01-09|Sumitomo Metal Ind Ltd|High-tensile steel for oil well excellent in resistance to sulfide cracking| IT1199343B|1986-12-23|1988-12-30|Dalmine Spa|PERFECTED JOINT FOR WELL COATING PIPES| US5191911A|1987-03-18|1993-03-09|Quality Tubing, Inc.|Continuous length of coilable tubing| JPS63230847A|1987-03-20|1988-09-27|Sumitomo Metal Ind Ltd|Low-alloy steel for oil well pipe excellent in corrosion resistance| JPS63230851A|1987-03-20|1988-09-27|Sumitomo Metal Ind Ltd|Low-alloy steel for oil well pipe excellent in corrosion resistance| JPS63270477A|1987-04-27|1988-11-08|Nippon Steel Corp|Production of joint member of oil well pipe having superior corrosion resistance and seizing preventiveness| US4844517A|1987-06-02|1989-07-04|Sierracin Corporation|Tube coupling| US4812182A|1987-07-31|1989-03-14|Hongsheng Fang|Air-cooling low-carbon bainitic steel| US4955645A|1987-09-16|1990-09-11|Tuboscope, Inc.|Gauging device and method for coupling threaded, tubular articles and a coupling assembly| US4867489A|1987-09-21|1989-09-19|Parker Hannifin Corporation|Tube fitting| US4856828A|1987-12-08|1989-08-15|Tuboscope Inc.|Coupling assembly for tubular articles| JPH0465277B2|1988-02-03|1992-10-19|Nippon Steel Corp| JPH01259125A|1988-04-11|1989-10-16|Sumitomo Metal Ind Ltd|Manufacture of high-strength oil well tube excellent in corrosion resistance| JPH01259124A|1988-04-11|1989-10-16|Sumitomo Metal Ind Ltd|Manufacture of high-strength oil well tube excellent in corrosion resistance| DE3815455C2|1988-05-06|1994-10-20|Freudenberg Carl Fa|Inflatable seal| JPH01283322A|1988-05-10|1989-11-14|Sumitomo Metal Ind Ltd|Production of high-strength oil well pipe having excellent corrosion resistance| IT1224745B|1988-10-03|1990-10-18|Dalmine Spa|METALLIC HERMETIC SEAL JOINT FOR PIPES| FR2645562B1|1989-04-10|1992-11-27|Lorraine Laminage|METHOD FOR MANUFACTURING A REINFORCEMENT FOR REINFORCING CONCRETE STRUCTURES AND REINFORCEMENT OBTAINED ACCORDING TO THIS PROCESS| CA1314864C|1989-04-14|1993-03-23|Computalog Gearhart Ltd.|Compressive seal and pressure control arrangements for downhole tools| JPH036329A|1989-05-31|1991-01-11|Kawasaki Steel Corp|Method for hardening steel pipe| CA1322773C|1989-07-28|1993-10-05|Erich F. Klementich|Threaded tubular connection| US6070912A|1989-08-01|2000-06-06|Reflange, Inc.|Dual seal and connection| DE4002494C2|1990-01-29|1992-04-16|Deutsche Airbus Gmbh, 2000 Hamburg, De| JP2834276B2|1990-05-15|1998-12-09|新日本製鐵株式会社|Manufacturing method of high strength steel with excellent sulfide stress cracking resistance| JPH04107214A|1990-08-29|1992-04-08|Nippon Steel Corp|Inline softening treatment for air-hardening seamless steel tube| US5538566A|1990-10-24|1996-07-23|Consolidated Metal Products, Inc.|Warm forming high strength steel parts| US5137310A|1990-11-27|1992-08-11|Vallourec Industries|Assembly arrangement using frustoconical screwthreads for tubes| JP2567150B2|1990-12-06|1996-12-25|新日本製鐵株式会社|Manufacturing method of high strength low yield ratio line pipe material for low temperature| JPH04231414A|1990-12-27|1992-08-20|Sumitomo Metal Ind Ltd|Production of highly corrosion resistant oil well pipe| US5143381A|1991-05-01|1992-09-01|Pipe Gasket & Supply Co., Inc.|Pipe joint seal| US5521707A|1991-08-21|1996-05-28|Apeiron, Inc.|Laser scanning method and apparatus for rapid precision measurement of thread form| US5180008A|1991-12-18|1993-01-19|Fmc Corporation|Wellhead seal for wide temperature and pressure ranges| US5328158A|1992-03-03|1994-07-12|Southwestern Pipe, Inc.|Apparatus for continuous heat treating advancing continuously formed pipe in a restricted space| JP2682332B2|1992-04-08|1997-11-26|住友金属工業株式会社|Method for producing high strength corrosion resistant steel pipe| US5445683A|1992-05-13|1995-08-29|Daidousanso Co., Ltd.|Nickel alloy products with their surfaces nitrided and hardened| DK168834B1|1992-06-03|1994-06-20|Man B & W Diesel Gmbh|seal| JP2814882B2|1992-07-27|1998-10-27|住友金属工業株式会社|Method for manufacturing high strength and high ductility ERW steel pipe| IT1263251B|1992-10-27|1996-08-05|Sviluppo Materiali Spa|PROCEDURE FOR THE PRODUCTION OF SUPER-DUPLEX STAINLESS STEEL PRODUCTS.| JPH06172859A|1992-12-04|1994-06-21|Nkk Corp|Production of high strength steel tube excellent in sulfide stress corrosion cracking resistance| JPH06220536A|1993-01-22|1994-08-09|Nkk Corp|Production of high strength steel pipe excellent in sulfide stress corrosion cracking resistance| US5454883A|1993-02-02|1995-10-03|Nippon Steel Corporation|High toughness low yield ratio, high fatigue strength steel plate and process of producing same| US5355961A|1993-04-02|1994-10-18|Abb Vetco Gray Inc.|Metal and elastomer casing hanger seal| NO941302L|1993-04-14|1994-10-17|Fmc Corp|Gasket for large diameter pipes| US5505502A|1993-06-09|1996-04-09|Shell Oil Company|Multiple-seal underwater pipe-riser connector| US5454605A|1993-06-15|1995-10-03|Hydril Company|Tool joint connection with interlocking wedge threads| WO1995002074A1|1993-07-06|1995-01-19|Nippon Steel Corporation|Steel of high corrosion resistance and steel of high corrosion resistance and workability| JPH0741856A|1993-07-28|1995-02-10|Nkk Corp|Production of high strength steel pipe excellent in sulfide stress corrosion cracking resistance| JPH07139666A|1993-11-16|1995-05-30|Kawasaki Steel Corp|Threaded joint for oil well pipe| JPH07197125A|1994-01-10|1995-08-01|Nkk Corp|Production of high strength steel pipe having excellent sulfide stress corrosion crack resistance| JPH07266837A|1994-03-29|1995-10-17|Horikiri Bane Seisakusho:Kk|Manufacture of hollow stabilizer| IT1267243B1|1994-05-30|1997-01-28|Danieli Off Mecc|CONTINUOUS CASTING PROCEDURE FOR PERITECTIC STEELS| US5515707A|1994-07-15|1996-05-14|Precision Tube Technology, Inc.|Method of increasing the fatigue life and/or reducing stress concentration cracking of coiled metal tubing| DE4446806C1|1994-12-09|1996-05-30|Mannesmann Ag|Gas-tight pipe connection| GB2297094B|1995-01-20|1998-09-23|British Steel Plc|Improvements in and relating to Carbide-Free Bainitic Steels| WO1996029533A1|1995-03-23|1996-09-26|Hydril Company|Threaded pipe connection| JP3755163B2|1995-05-15|2006-03-15|住友金属工業株式会社|Manufacturing method of high-strength seamless steel pipe with excellent resistance to sulfide stress cracking| EP0828007B1|1995-05-15|2001-11-14|Sumitomo Metal Industries, Ltd.|Process for producing high-strength seamless steel pipe having excellent sulfide stress cracking resistance| FI101498B|1995-05-16|1998-06-30|Uponor Innovation Ab|Sleeve connection for plastic pipes| IT1275287B|1995-05-31|1997-08-05|Dalmine Spa|SUPERMARTENSITIC STAINLESS STEEL WITH HIGH MECHANICAL AND CORROSION RESISTANCE AND RELATED MANUFACTURED PRODUCTS| DE59607441D1|1995-07-06|2001-09-13|Benteler Werke Ag|Tubes for the manufacture of stabilizers and manufacture of stabilizers from such tubes| JPH0967624A|1995-08-25|1997-03-11|Sumitomo Metal Ind Ltd|Production of high strength oil well steel pipe excellent in sscc resistance| JP3853428B2|1995-08-25|2006-12-06|Jfeスチール株式会社|Method and equipment for drawing and rolling steel pipes| US5720503A|1995-11-08|1998-02-24|Single Buoy Moorings Inc.|Sealing sytem--anti collapse device| JPH09235617A|1996-02-29|1997-09-09|Sumitomo Metal Ind Ltd|Production of seamless steel tube| EP0971348B1|1996-04-26|2000-11-02|Matsushita Electric Industrial Co., Ltd.|Information recording method, information recording apparatus, and cartridge unit| US5810401A|1996-05-07|1998-09-22|Frank's Casing Crew And Rental Tools, Inc.|Threaded tool joint with dual mating shoulders| US5879030A|1996-09-04|1999-03-09|Wyman-Gordon Company|Flow line coupling| JPH10176239A|1996-10-17|1998-06-30|Kobe Steel Ltd|High strength and low yield ratio hot rolled steel sheet for pipe and its production| JPH10140250A|1996-11-12|1998-05-26|Sumitomo Metal Ind Ltd|Production of steel tube for air bag, having high strength and high toughness| WO1998031843A1|1997-01-15|1998-07-23|Mannesmann Ag|Method for making seamless tubing with a stable elastic limit at high application temperatures| CA2231985C|1997-03-26|2004-05-25|Sumitomo Metal Industries, Ltd.|Welded high-strength steel structures and methods of manufacturing the same| JPH10280037A|1997-04-08|1998-10-20|Sumitomo Metal Ind Ltd|Production of high strength and high corrosion-resistant seamless seamless steel pipe| CN1088117C|1997-04-30|2002-07-24|川崎制铁株式会社|Steel material having high ductility and high strength and process for producing same| EP0878334B1|1997-05-12|2003-09-24|Firma Muhr und Bender|Stabilizer| DE69736232T2|1997-05-30|2007-05-24|Vallourec Mannesmann Oil & Gas France|SCREW CONNECTION FOR OIL PIPES| DE19725434C2|1997-06-16|1999-08-19|Schloemann Siemag Ag|Process for rolling hot wide strip in a CSP plant| US5993570A|1997-06-20|1999-11-30|American Cast Iron Pipe Company|Linepipe and structural steel produced by high speed continuous casting| JP3348397B2|1997-07-17|2002-11-20|本田技研工業株式会社|Inspection method of turning control mechanism of vehicle| JPH1150148A|1997-08-06|1999-02-23|Sumitomo Metal Ind Ltd|Production of high strength and high corrosion resistance seamless steel pipe| EP0995809B1|1997-09-29|2004-02-04|Sumitomo Metal Industries Limited|Steel for oil well pipes with high wet carbon dioxide gas corrosion resistance and high seawater corrosion resistance, and seamless oil well pipe| JP3898814B2|1997-11-04|2007-03-28|新日本製鐵株式会社|Continuous cast slab for high strength steel with excellent low temperature toughness and its manufacturing method, and high strength steel with excellent low temperature toughness| KR100245031B1|1997-12-27|2000-03-02|허영준|Car stabilizer bar manufacturing method using non heat treated steel| JP3344308B2|1998-02-09|2002-11-11|住友金属工業株式会社|Ultra-high-strength steel sheet for linepipe and its manufacturing method| JP4203143B2|1998-02-13|2008-12-24|新日本製鐵株式会社|Corrosion-resistant steel and anti-corrosion well pipe with excellent carbon dioxide corrosion resistance| US6044539A|1998-04-02|2000-04-04|S & B Technical Products, Inc.|Pipe gasket and method of installation| US6056324A|1998-05-12|2000-05-02|Dril-Quip, Inc.|Threaded connector| EP1027944B1|1998-07-21|2006-11-22|Shinagawa Refractories Co., Ltd.|Molding powder for continuous casting of thin slabs and continuous casting method| DE19834151C1|1998-07-29|2000-04-13|Neheim Goeke & Co Metall|Valve for hot water systems| JP2000063940A|1998-08-12|2000-02-29|Sumitomo Metal Ind Ltd|Production of high strength steel excellent in sulfide stress cracking resistance| AR020201A1|1998-09-07|2002-05-02|Sumitomo Metal Ind|THREADED CONNECTION OF TWO METAL PIPES AND USE OF TWO THREADED CONNECTIONS.| AR020883A1|1998-09-07|2002-06-05|Sumitomo Metal Ind|THREADED CONNECTION OF TWO METAL TUBES WITH SLOT THREAD| US6299705B1|1998-09-25|2001-10-09|Mitsubishi Heavy Industries, Ltd.|High-strength heat-resistant steel and process for producing high-strength heat-resistant steel| FR2784446B1|1998-10-13|2000-12-08|Vallourec Mannesmann Oil & Gas|INTEGRAL THREADED ASSEMBLY OF TWO METAL TUBES| JP3562353B2|1998-12-09|2004-09-08|住友金属工業株式会社|Oil well steel excellent in sulfide stress corrosion cracking resistance and method for producing the same| JP3800836B2|1998-12-15|2006-07-26|住友金属工業株式会社|Manufacturing method of steel with excellent strength and toughness| JP4331300B2|1999-02-15|2009-09-16|日本発條株式会社|Method for manufacturing hollow stabilizer| IT1309704B1|1999-02-19|2002-01-30|Eni Spa|INTEGRAL JUNCTION OF TWO PIPES| JP2000248337A|1999-03-02|2000-09-12|Kansai Electric Power Co Inc:The|Method for improving water vapor oxidation resistance of high chromium ferritic heat resistant steel for boiler and high chromium ferritic heat resistant steel for boiler excellent in water vapor oxidation resistance| US6173968B1|1999-04-27|2001-01-16|Trw Inc.|Sealing ring assembly| JP3680628B2|1999-04-28|2005-08-10|住友金属工業株式会社|Manufacturing method of high strength oil well steel pipe with excellent resistance to sulfide cracking| CZ293084B6|1999-05-17|2004-02-18|Jinpo Plus A. S.|Steel for creep-resisting and high-strength wrought parts, particularly pipes, plates and forgings| JP3083517B1|1999-06-28|2000-09-04|東尾メック株式会社|Pipe fittings| CN1178015C|1999-09-16|2004-12-01|西德尔卡有限公司|Screwed connection with high safety and stability| AR020495A1|1999-09-21|2002-05-15|Siderca Sa Ind & Com|UNION THREADED HIGH RESISTANCE AND COMPRESSION UNION| US6682101B2|2002-03-06|2004-01-27|Beverly Watts Ramos|Wedgethread pipe connection| JP4367588B2|1999-10-28|2009-11-18|住友金属工業株式会社|Steel pipe with excellent resistance to sulfide stress cracking| US6991267B2|1999-12-03|2006-01-31|Siderca S.A.I.C.|Assembly of hollow torque transmitting sucker rods and sealing nipple with improved seal and fluid flow| US6764108B2|1999-12-03|2004-07-20|Siderca S.A.I.C.|Assembly of hollow torque transmitting sucker rods| US7431347B2|2003-09-24|2008-10-07|Siderca S.A.I.C.|Hollow sucker rod connection with second torque shoulder| JP3545980B2|1999-12-06|2004-07-21|株式会社神戸製鋼所|Ultra high strength electric resistance welded steel pipe with excellent delayed fracture resistance and manufacturing method thereof| JP3543708B2|1999-12-15|2004-07-21|住友金属工業株式会社|Oil well steel with excellent resistance to sulfide stress corrosion cracking and method for producing oil well steel pipe using the same| DE60134125D1|2000-02-28|2008-07-03|Nippon Steel Corp|STEEL TUBE WITH EXCELLENT FORMABILITY AND MANUFACTURING METHOD THEREFOR| JP4379550B2|2000-03-24|2009-12-09|住友金属工業株式会社|Low alloy steel with excellent resistance to sulfide stress cracking and toughness| JP3518515B2|2000-03-30|2004-04-12|住友金属工業株式会社|Low / medium Cr heat resistant steel| FR2807095B1|2000-03-31|2002-08-30|Vallourec Mannesmann Oil & Gas|DELAYED TUBULAR THREADED ELEMENT FOR FATIGUE-RESISTANT TUBULAR THREADED SEAL AND RESULTING TUBULAR THREADED SEAL| DE10019567A1|2000-04-20|2001-10-31|Busak & Shamban Gmbh & Co|poetry| US6447025B1|2000-05-12|2002-09-10|Grant Prideco, L.P.|Oilfield tubular connection| IT1317649B1|2000-05-19|2003-07-15|Dalmine Spa|MARTENSITIC STAINLESS STEEL AND PIPES WITHOUT WELDING WITH IT PRODUCTS| WO2001094655A1|2000-06-07|2001-12-13|Nippon Steel Corporation|Steel pipe having high formability and method for producing the same| AU6421801A|2000-06-07|2001-12-17|Sumitomo Metal Ind|Taper threaded joint| IT1318179B1|2000-07-17|2003-07-23|Dalmine Spa|INTEGRAL THREADED JOINT FOR PIPES.| IT1318753B1|2000-08-09|2003-09-10|Dalmine Spa|INTEGRAL THREADED JOINT WITH CONTINUOUS PROFILE PIPES| US6558484B1|2001-04-23|2003-05-06|Hiroshi Onoe|High strength screw| US6478344B2|2000-09-15|2002-11-12|Abb Vetco Gray Inc.|Threaded connector| JP3959667B2|2000-09-20|2007-08-15|エヌケーケーシームレス鋼管株式会社|Manufacturing method of high strength steel pipe| US7108063B2|2000-09-25|2006-09-19|Carstensen Kenneth J|Connectable rod system for driving downhole pumps for oil field installations| US6857668B2|2000-10-04|2005-02-22|Grant Prideco, L.P.|Replaceable corrosion seal for threaded connections| US6811189B1|2000-10-04|2004-11-02|Grant Prideco, L.P.|Corrosion seal for threaded connections| JP3524487B2|2000-10-25|2004-05-10|レッキス工業株式会社|Thin pipe fittings| IT1319028B1|2000-10-26|2003-09-19|Dalmine Spa|THREADED JOINT FOR SLEEVE TYPE PIPES| US6494499B1|2000-10-31|2002-12-17|The Technologies Alliance, Inc.|Threaded connector for pipe| US6384388B1|2000-11-17|2002-05-07|Meritor Suspension Systems Company|Method of enhancing the bending process of a stabilizer bar| WO2002068854A1|2001-01-20|2002-09-06|Otten, Gregory, K.|Replaceable corrosion seal for threaded connections| JP3931564B2|2001-01-25|2007-06-20|住友金属工業株式会社|Threaded joint for steel pipes with excellent seizure resistance and rust resistance| EP1359235A4|2001-02-07|2005-01-12|Jfe Steel Corp|Thin steel sheet and method for production thereof| FR2820806B1|2001-02-09|2004-02-20|Vallourec Mannesmann Oil & Gas|TUBULAR THREAD JOINT WITH CONVEXED BOMBED THREAD SIDE| CN1217023C|2001-03-07|2005-08-31|新日本制铁株式会社|Electric welded steel tube for hollow stabilizer| AR027650A1|2001-03-13|2003-04-09|Siderca Sa Ind & Com|LOW-ALLOY CARBON STEEL FOR THE MANUFACTURE OF PIPES FOR EXPLORATION AND PRODUCTION OF PETROLEUM AND / OR NATURAL GAS, WITH IMPROVED LACORROSION RESISTANCE, PROCEDURE FOR MANUFACTURING SEAMLESS PIPES AND SEWLESS TUBES OBTAINED| WO2002079526A1|2001-03-29|2002-10-10|Sumitomo Metal Industries, Ltd.|High strength steel tube for air bag and method for production thereof| US6527056B2|2001-04-02|2003-03-04|Ctes, L.C.|Variable OD coiled tubing strings| US20020153671A1|2001-04-18|2002-10-24|Construction Polymers Company|Tunnel gasket for elevated working pressure| US6550822B2|2001-04-25|2003-04-22|G. B. Tubulars, Inc.|Threaded coupling with water exclusion seal system| EP1386098B1|2001-05-11|2010-06-02|MSA Auer GmbH|Annular seal, in particular for plug-in connectors| JP2002364786A|2001-06-05|2002-12-18|Sumitomo Metal Ind Ltd|Film-forming method for threaded joint for oil well pipe and threaded joint product for oil well pipe| US7618503B2|2001-06-29|2009-11-17|Mccrink Edward J|Method for improving the performance of seam-welded joints using post-weld heat treatment| JP2003096534A|2001-07-19|2003-04-03|Mitsubishi Heavy Ind Ltd|High strength heat resistant steel, method of producing high strength heat resistant steel, and method of producing high strength heat resistant tube member| US6581940B2|2001-07-30|2003-06-24|S&B Technical Products, Inc.|Concrete manhole connector gasket| JP2003041341A|2001-08-02|2003-02-13|Sumitomo Metal Ind Ltd|Steel material with high toughness and method for manufacturing steel pipe thereof| US6755447B2|2001-08-24|2004-06-29|The Technologies Alliance, Inc.|Production riser connector| CN1151305C|2001-08-28|2004-05-26|宝山钢铁股份有限公司|Carbon dioxide corrosion-resistant low alloy steel and oil casing| DE60231279D1|2001-08-29|2009-04-09|Jfe Steel Corp|Method for producing seamless tubes of high-strength, high-strength, martensitic stainless steel| US6669789B1|2001-08-31|2003-12-30|Nucor Corporation|Method for producing titanium-bearing microalloyed high-strength low-alloy steel| JP4680446B2|2001-08-31|2011-05-11|Jfeスチール株式会社|Oil well steel pipe fittings| NO315284B1|2001-10-19|2003-08-11|Inocean As|Riser pipe for connection between a vessel and a point on the seabed| FR2833335B1|2001-12-07|2007-05-18|Vallourec Mannesmann Oil & Gas|UPPER TUBULAR THREADING CONTAINING AT LEAST ONE THREADED ELEMENT WITH END LIP| US6709534B2|2001-12-14|2004-03-23|Mmfx Technologies Corporation|Nano-composite martensitic steels| GB0130967D0|2001-12-24|2002-02-13|Hunting Oilfield Services Ltd|Anti galling threaded joint| UA51138A|2002-01-15|2002-11-15|Приазовський Державний Технічний Університет|Method for steel thermal treatment| MXPA04009375A|2002-03-29|2005-05-17|Sumitomo Metal Ind|Low alloy steel.| GB0208098D0|2002-04-09|2002-05-22|Gloway Internat Inc|Pipe repair system and device| ITRM20020234A1|2002-04-30|2003-10-30|Tenaris Connections Bv|THREADED JOINT FOR PIPES.| GB2388169A|2002-05-01|2003-11-05|2H Offshore Engineering Ltd|Pipe joint| US6666274B2|2002-05-15|2003-12-23|Sunstone Corporation|Tubing containing electrical wiring insert| ITRM20020274A1|2002-05-16|2003-11-17|Tenaris Connections Bv|THREADED JOINT FOR PIPES.| JP2004011009A|2002-06-11|2004-01-15|Nippon Steel Corp|Electric resistance welded steel tube for hollow stabilizer| US6669285B1|2002-07-02|2003-12-30|Eric Park|Headrest mounted video display| US6883804B2|2002-07-11|2005-04-26|Parker-Hannifin Corporation|Seal ring having secondary sealing lips| US20040022657A1|2002-08-01|2004-02-05|Vogt Gregory A.|High torque rotatable progressive cavity drive rods and connectors| FR2844023B1|2002-08-29|2005-05-06|Vallourec Mannesmann Oil & Gas|THREADED TUBULAR THREAD SEAL WITH RESPECT TO THE OUTER ENVIRONMENT| ITRM20020445A1|2002-09-06|2004-03-07|Tenaris Connections Bv|THREADED JOINT FOR PIPES.| CN1229511C|2002-09-30|2005-11-30|宝山钢铁股份有限公司|Low alloy steel resisting CO2 and H2S corrosion| JP2004176172A|2002-10-01|2004-06-24|Sumitomo Metal Ind Ltd|High strength seamless steel pipe with excellent hic resistance, and its manufacturing method| ITRM20020512A1|2002-10-10|2004-04-11|Tenaris Connections Bv|THREADED PIPE WITH SURFACE TREATMENT.| US20050012278A1|2002-11-07|2005-01-20|Delange Richard W.|Metal sleeve seal for threaded connections| FR2848282B1|2002-12-09|2006-12-29|Vallourec Mannesmann Oil & Gas|METHOD OF MAKING A SEALED TUBULAR THREAD SEAL WITH RESPECT TO OUTSIDE| US7074286B2|2002-12-18|2006-07-11|Ut-Battelle, Llc|Wrought Cr—W—V bainitic/ferritic steel compositions| US6817633B2|2002-12-20|2004-11-16|Lone Star Steel Company|Tubular members and threaded connections for casing drilling and method| US7010950B2|2003-01-17|2006-03-14|Visteon Global Technologies, Inc.|Suspension component having localized material strengthening| ITRM20030065A1|2003-02-13|2004-08-14|Tenaris Connections Bv|THREADED JOINT FOR PIPES.| BR0318308B1|2003-04-25|2011-12-13|Seamless steel pipe and process for its manufacture.| FR2855587B1|2003-05-30|2006-12-29|Vallourec Mannesmann Oil & Gas|TUBULAR THREADED JOINT WITH PROGRESSIVE AXIAL THREAD| ES2349166T5|2003-06-06|2018-12-28|Nippon Steel & Sumitomo Metal Corporation|Threaded joint for steel pipes| US20050076975A1|2003-10-10|2005-04-14|Tenaris Connections A.G.|Low carbon alloy steel tube having ultra high strength and excellent toughness at low temperature and method of manufacturing the same| US20060169368A1|2004-10-05|2006-08-03|Tenaris Conncections A.G. |Low carbon alloy steel tube having ultra high strength and excellent toughness at low temperature and method of manufacturing the same| US20050087269A1|2003-10-22|2005-04-28|Merwin Matthew J.|Method for producing line pipe| US20050093250A1|2003-11-05|2005-05-05|Santi Nestor J.|High-strength sealed connection for expandable tubulars| AR047467A1|2004-01-30|2006-01-18|Sumitomo Metal Ind|STEEL TUBE WITHOUT SEWING FOR OIL WELLS AND PROCEDURE TO MANUFACTURE| DE602005016075D1|2004-02-02|2009-10-01|Tenaris Connections Ag|THREAD PROTECTION FOR TUBULAR LINKS| JP2005221038A|2004-02-06|2005-08-18|Sumitomo Metal Ind Ltd|Oil well pipe screw joint and method for manufacturing the same| CN100526479C|2004-03-24|2009-08-12|住友金属工业株式会社|Process for producing low-alloy steel excelling in corrosion resistance| JP4599874B2|2004-04-06|2010-12-15|住友金属工業株式会社|Threaded joint for oil well pipe and method for manufacturing the same| JP4140556B2|2004-06-14|2008-08-27|住友金属工業株式会社|Low alloy steel for oil well pipes with excellent resistance to sulfide stress cracking| US7454565B1|2004-06-29|2008-11-18|Crossroads Systems, Inc|System and method for distributed partitioned library mapping| JP4135691B2|2004-07-20|2008-08-20|住友金属工業株式会社|Nitride inclusion control steel| JP2006037147A|2004-07-26|2006-02-09|Sumitomo Metal Ind Ltd|Steel material for oil well pipe| US20060021410A1|2004-07-30|2006-02-02|Sonats-Societe Des Nouvelles Applications Des Techniques De Surfaces|Shot, devices, and installations for ultrasonic peening, and parts treated thereby| US7310867B2|2004-10-06|2007-12-25|S&B Technical Products, Inc.|Snap in place gasket installation method| US7566416B2|2004-10-29|2009-07-28|Sumitomo Metal Industries, Ltd.|Steel pipe for an airbag inflator and a process for its manufacture| US7214278B2|2004-12-29|2007-05-08|Mmfx Technologies Corporation|High-strength four-phase steel alloys| US20060157539A1|2005-01-19|2006-07-20|Dubois Jon D|Hot reduced coil tubing| ITRM20050069A1|2005-02-17|2006-08-18|Tenaris Connections Ag|THREADED JOINT FOR TUBES PROVIDED WITH SEALING.| US20060214421A1|2005-03-22|2006-09-28|Intelliserv|Fatigue Resistant Rotary Shouldered Connection and Method| JP2006265668A|2005-03-25|2006-10-05|Sumitomo Metal Ind Ltd|Seamless steel tube for oil well| JP4792778B2|2005-03-29|2011-10-12|住友金属工業株式会社|Manufacturing method of thick-walled seamless steel pipe for line pipe| US20060243355A1|2005-04-29|2006-11-02|Meritor Suspension System Company, U.S.|Stabilizer bar| US7478842B2|2005-05-18|2009-01-20|Hydril Llc|Coupled connection with an externally supported pin nose seal| US7182140B2|2005-06-24|2007-02-27|Xtreme Coil Drilling Corp.|Coiled tubing/top drive rig and method| CN101248305B|2005-06-27|2011-04-06|斯瓦戈洛克公司|Tube fitting| JP2009501303A|2005-07-13|2009-01-15|ベーレエンフィネーリンフベー.フェー.|System for sealing a space between an inner wall of a tubular opening and at least one tube or duct inserted at least partially into the opening| JP4635764B2|2005-07-25|2011-02-23|住友金属工業株式会社|Seamless steel pipe manufacturing method| MXPA05008339A|2005-08-04|2007-02-05|Tenaris Connections Ag|High-strength steel for seamless, weldable steel pipes.| FR2889727B1|2005-08-09|2007-09-28|Vallourec Mannesmann Oil Gas F|TUBULAR THREAD SEALED WITH LIQUIDS AND GASES| CN101287853B|2005-08-22|2015-05-06|新日铁住金株式会社|Seamless steel pipe for line pipe and method for producing same| JP4275656B2|2005-09-02|2009-06-10|住友金属工業株式会社|Threaded joints for steel pipes| EP1767659A1|2005-09-21|2007-03-28|ARCELOR France|Method of manufacturing multi phase microstructured steel piece| AR057940A1|2005-11-30|2007-12-26|Tenaris Connections Ag|THREADED CONNECTIONS WITH HIGH AND LOW FRICTION COATINGS| JP4997753B2|2005-12-16|2012-08-08|タカタ株式会社|Crew restraint system| AR058961A1|2006-01-10|2008-03-05|Siderca Sa Ind & Com|CONNECTION FOR PUMPING ROD WITH HIGHER RESISTANCE TO THE AFFECTION OBTAINED BY APPLYING DIAMETER INTERFERENCE TO REDUCE AXIAL INTERFERENCE| US7744708B2|2006-03-14|2010-06-29|Tenaris Connections Limited|Methods of producing high-strength metal tubular bars possessing improved cold formability| JP4751224B2|2006-03-28|2011-08-17|新日本製鐵株式会社|High strength seamless steel pipe for machine structure with excellent toughness and weldability and method for producing the same| US20070246219A1|2006-04-19|2007-10-25|Mannella Eugene J|Seal for a fluid assembly| US8027667B2|2006-06-29|2011-09-27|Mobilesphere Holdings LLC|System and method for wireless coupon transactions| WO2008000300A1|2006-06-29|2008-01-03|Tenaris Connections Ag|Seamless precision steel tubes with improved isotropic toughness at low temperature for hydraulic cylinders and process for obtaining the same| US8322754B2|2006-12-01|2012-12-04|Tenaris Connections Limited|Nanocomposite coatings for threaded connections| JP4924103B2|2007-03-02|2012-04-25|住友金属工業株式会社|Threaded joint for oil well pipe| FR2913746B1|2007-03-14|2011-06-24|Vallourec Mannesmann Oil & Gas|SEALED TUBULAR THREAD SEAL FOR INTERNAL AND EXTERNAL PRESSURE SOLUTIONS| US20080226396A1|2007-03-15|2008-09-18|Tubos De Acero De Mexico S.A.|Seamless steel tube for use as a steel catenary riser in the touch down zone| CN101514433A|2007-03-16|2009-08-26|株式会社神户制钢所|Automobile high-strength electric resistance welded steel pipe with excellent low-temperature impact property and method of manufacturing the same| JP5822464B2|2007-03-28|2015-11-24|テナリス・コネクシヨンズ・リミテツドTenaris Connections Limited|Ultra-high torque dope-free screw joint| EP2133442B1|2007-03-30|2012-02-01|Sumitomo Metal Industries, Ltd.|Low-alloy steel, seamless steel pipe for oil well, and process for producing seamless steel pipe| MX2007004600A|2007-04-17|2008-12-01|Tubos De Acero De Mexico S A|Seamless steel pipe for use as vertical work-over sections.| DE102007023306A1|2007-05-16|2008-11-20|Benteler Stahl/Rohr Gmbh|Use of a steel alloy for jacket pipes for perforation of borehole casings and jacket pipe| AR061224A1|2007-06-05|2008-08-13|Tenaris Connections Ag|A HIGH RESISTANCE THREADED UNION, PREFERENTLY FOR TUBES WITH INTERNAL COATING.| EP2006589B1|2007-06-22|2011-08-31|Tenaris Connections Aktiengesellschaft|Threaded joint with energizable seal| DE602007011046D1|2007-06-27|2011-01-20|Tenaris Connections Ag|Threaded connection with pressurizable seal| US7862667B2|2007-07-06|2011-01-04|Tenaris Connections Limited|Steels for sour service environments| EP2017507B1|2007-07-16|2016-06-01|Tenaris Connections Limited|Threaded joint with resilient seal ring| DE602007013892D1|2007-08-24|2011-05-26|Tenaris Connections Ag|Threaded connector with high radial load and differently treated surfaces| DE602007008890D1|2007-08-24|2010-10-14|Tenaris Connections Ag|Method for increasing the fatigue resistance of a screw connection| CN201080789Y|2007-09-28|2008-07-02|王新虎|Corrosion resistant bore rod| EP2238272B1|2007-11-19|2019-03-06|Tenaris Connections B.V.|High strength bainitic steel for octg applications| BRPI0820002B1|2007-12-04|2019-01-22|Nippon Steel & Sumitomo Metal Corp|threaded pipe joint| JP5353256B2|2008-01-21|2013-11-27|Jfeスチール株式会社|Hollow member and manufacturing method thereof| EP2096253B1|2008-02-29|2010-06-16|Tenaris Connections AG|Threaded joint with improved resilient seal rings| CN102056752B|2008-06-04|2013-11-13|Ntn株式会社|Bearing device for driving wheels| MX2009012811A|2008-11-25|2010-05-26|Maverick Tube Llc|Compact strip or thin slab processing of boron/titanium steels.| WO2010061882A1|2008-11-26|2010-06-03|住友金属工業株式会社|Seamless steel pipe and method for manufacturing same| CN101413089B|2008-12-04|2010-11-03|天津钢管集团股份有限公司|High-strength low-chromium anti-corrosion petroleum pipe special for low CO2 environment| ES2392807T3|2009-01-06|2012-12-14|Alcoa Inc.|Advanced nut and screw| US8784577B2|2009-01-30|2014-07-22|Jfe Steel Corporation|Thick high-tensile-strength hot-rolled steel sheet having excellent low-temperature toughness and manufacturing method thereof| CN101480671B|2009-02-13|2010-12-29|西安兰方实业有限公司|Technique for producing double-layer copper brazing steel tube for air-conditioner| US8261841B2|2009-02-17|2012-09-11|Exxonmobil Research And Engineering Company|Coated oil and gas well production devices| US20140021244A1|2009-03-30|2014-01-23|Global Tubing Llc|Method of Manufacturing Coil Tubing Using Friction Stir Welding| EP2243920A1|2009-04-22|2010-10-27|Tenaris Connections Aktiengesellschaft|Threaded joint for tubes, pipes and the like| US20100319814A1|2009-06-17|2010-12-23|Teresa Estela Perez|Bainitic steels with boron| CN101613829B|2009-07-17|2011-09-28|天津钢管集团股份有限公司|Steel pipe for borehole operation of 150ksi steel grade high toughness oil and gas well and production method thereof| US9541224B2|2009-08-17|2017-01-10|Global Tubing, Llc|Method of manufacturing coiled tubing using multi-pass friction stir welding| EP2325435B2|2009-11-24|2020-09-30|Tenaris Connections B.V.|Threaded joint sealed to [ultra high] internal and external pressures| CN102859250B|2010-02-22|2016-04-13|埃克森美孚研究工程公司|Through the band sleeve Oil/gas Well process units of coating| EP2372208B1|2010-03-25|2013-05-29|Tenaris Connections Limited|Threaded joint with elastomeric seal flange| EP2372211B1|2010-03-26|2015-06-03|Tenaris Connections Ltd.|Thin-walled pipe joint and method to couple a first pipe to a second pipe| US9163296B2|2011-01-25|2015-10-20|Tenaris Coiled Tubes, Llc|Coiled tube with varying mechanical properties for superior performance and methods to produce the same by a continuous heat treatment| IT1403688B1|2011-02-07|2013-10-31|Dalmine Spa|STEEL TUBES WITH THICK WALLS WITH EXCELLENT LOW TEMPERATURE HARDNESS AND RESISTANCE TO CORROSION UNDER TENSIONING FROM SULFUR.| IT1403689B1|2011-02-07|2013-10-31|Dalmine Spa|HIGH-RESISTANCE STEEL TUBES WITH EXCELLENT LOW TEMPERATURE HARDNESS AND RESISTANCE TO CORROSION UNDER VOLTAGE SENSORS.| US8636856B2|2011-02-18|2014-01-28|Siderca S.A.I.C.|High strength steel having good toughness| US8414715B2|2011-02-18|2013-04-09|Siderca S.A.I.C.|Method of making ultra high strength steel having good toughness| CN103649355B|2011-07-10|2016-08-17|塔塔钢铁艾默伊登有限责任公司|Have the HAZ-of improvement soften repellence hot-rolled high-strength steel band and the method that produces described steel| JP5891700B2|2011-10-17|2016-03-23|Jfeスチール株式会社|Pipe threaded joints| US9340847B2|2012-04-10|2016-05-17|Tenaris Connections Limited|Methods of manufacturing steel tubes for drilling rods with improved mechanical properties, and rods made by the same| WO2014108756A1|2013-01-11|2014-07-17|Tenaris Connections Limited|Galling resistant drill pipe tool joint and corresponding drill pipe| US9187811B2|2013-03-11|2015-11-17|Tenaris Connections Limited|Low-carbon chromium steel having reduced vanadium and high corrosion resistance, and methods of manufacturing| US9803256B2|2013-03-14|2017-10-31|Tenaris Coiled Tubes, Llc|High performance material for coiled tubing applications and the method of producing the same| EP2789700A1|2013-04-08|2014-10-15|DALMINE S.p.A.|Heavy wall quenched and tempered seamless steel pipes and related method for manufacturing said steel pipes| EP2789701A1|2013-04-08|2014-10-15|DALMINE S.p.A.|High strength medium wall quenched and tempered seamless steel pipes and related method for manufacturing said steel pipes| CN113278890A|2013-06-25|2021-08-20|特纳瑞斯连接有限公司|High chromium heat resistant steel|EP2017507B1|2007-07-16|2016-06-01|Tenaris Connections Limited|Threaded joint with resilient seal ring| EP2325435B2|2009-11-24|2020-09-30|Tenaris Connections B.V.|Threaded joint sealed to [ultra high] internal and external pressures| WO2014108756A1|2013-01-11|2014-07-17|Tenaris Connections Limited|Galling resistant drill pipe tool joint and corresponding drill pipe| US9803256B2|2013-03-14|2017-10-31|Tenaris Coiled Tubes, Llc|High performance material for coiled tubing applications and the method of producing the same| EP2789701A1|2013-04-08|2014-10-15|DALMINE S.p.A.|High strength medium wall quenched and tempered seamless steel pipes and related method for manufacturing said steel pipes| EP2789700A1|2013-04-08|2014-10-15|DALMINE S.p.A.|Heavy wall quenched and tempered seamless steel pipes and related method for manufacturing said steel pipes| CN113278890A|2013-06-25|2021-08-20|特纳瑞斯连接有限公司|High chromium heat resistant steel| US10344541B2|2014-10-08|2019-07-09|Schlumberger Technology Corporation|Downhole tool connection assembly and method| US10619426B2|2014-12-30|2020-04-14|Halliburton Energy Services, Inc.|Torque connector systems, apparatus, and methods| US9470044B1|2015-07-06|2016-10-18|Pegasis S.r.l.|Threaded connection having high galling resistance and method of making same| AR106975A1|2015-12-25|2018-03-07|Nippon Steel & Sumitomo Metal Corp|THREADED CONNECTION FOR PIPE OR PIPE AND METHOD TO PRODUCE THE THREADED CONNECTION FOR PIPE OR TUBE| US11124852B2|2016-08-12|2021-09-21|Tenaris Coiled Tubes, Llc|Method and system for manufacturing coiled tubing| MX2019004361A|2016-10-18|2019-06-12|Nippon Steel & Sumitomo Metal Corp|Threaded joint for pipe and method for manufacturing threaded joint for pipe.|
法律状态:
2021-08-16| PBP| Patent lapsed|Effective date: 20210111 |
优先权:
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申请号 | 申请日 | 专利标题 IB2013050265|2013-01-11| PCT/IB2013/050265|WO2014108756A1|2013-01-11|2013-01-11|Galling resistant drill pipe tool joint and corresponding drill pipe| 相关专利
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