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1. 发明授权

US08091394B2 Foreign pipe or tube determining method 有权
标题翻译：国外管或管测定方法
公开(公告)号：US08091394B2
公开(公告)日：2012-01-10
申请号：US12738103
申请日：2008-11-26
申请人： Hajime Osako , Takeshi Maekawa
发明人： Hajime Osako , Takeshi Maekawa
IPC分类号： B21B37/00 , G06F19/00
CPC分类号： G01B21/02 , B21B23/00 , B21B38/04 , G01B21/08 , G01B21/10 , G01G17/00
摘要： There is provided a foreign pipe or tube determining method capable of accurately determining a foreign pipe or tube. The foreign pipe or tube determining method in accordance with the present invention includes a step for determining the presence of a foreign pipe or tube by comparing the length of each pipe or tube in a size measuring step with the length of each pipe or tube measured in an actual weighing and length measuring step, which is associated with each pipe or tube in the size measuring step, a step for determining the presence of a foreign pipe or tube by comparing the weight of each pipe or tube calculated in a weight calculating step with the weight of each pipe or tube measured in the actual weighing and length measuring step, which is associated with each pipe or tube in a weight calculating step, and a step for determining the presence of a foreign pipe or tube based on the material of each pipe or tube determined in a material determining step.
摘要翻译：提供了能够精确地确定外部管或管的外来管或管确定方法。根据本发明的外管管确定方法包括通过将尺寸测量步骤中的每个管或管的长度与每个管或管测量的长度进行比较来确定外管或管的存在的步骤在尺寸测量步骤中与每个管或管相关联的实际称量和长度测量步骤，通过将在重量计算步骤中计算的每个管或管的重量与在实际称量和长度测量步骤中测量的每个管或管的重量，其在重量计算步骤中与每个管或管相关联，以及用于基于每个管的材料确定外来管或管的存在的步骤在材料确定步骤中确定的管或管。

2. 发明申请

US20100300167A1 FOREIGN PIPE OR TUBE DETERMINING METHOD 有权
标题翻译：外管或管道测定方法
公开(公告)号：US20100300167A1
公开(公告)日：2010-12-02
申请号：US12738103
申请日：2008-11-26
申请人： Hajime Osako , Takeshi Maekawa
发明人： Hajime Osako , Takeshi Maekawa
IPC分类号： B21C51/00
CPC分类号： G01B21/02 , B21B23/00 , B21B38/04 , G01B21/08 , G01B21/10 , G01G17/00
摘要： There is provided a foreign pipe or tube determining method capable of accurately determining a foreign pipe or tube. The foreign pipe or tube determining method in accordance with the present invention includes a step for determining the presence of a foreign pipe or tube by comparing the length of each pipe or tube in a size measuring step with the length of each pipe or tube measured in an actual weighing and length measuring step, which is associated with each pipe or tube in the size measuring step, a step for determining the presence of a foreign pipe or tube by comparing the weight of each pipe or tube calculated in a weight calculating step with the weight of each pipe or tube measured in the actual weighing and length measuring step, which is associated with each pipe or tube in a weight calculating step, and a step for determining the presence of a foreign pipe or tube based on the material of each pipe or tube determined in a material determining step.
摘要翻译：提供了能够精确地确定外部管或管的外来管或管确定方法。根据本发明的外管管确定方法包括通过将尺寸测量步骤中的每个管或管的长度与每个管或管测量的长度进行比较来确定外管或管的存在的步骤在尺寸测量步骤中与每个管或管相关联的实际称量和长度测量步骤，通过将在重量计算步骤中计算的每个管或管的重量与在实际称量和长度测量步骤中测量的每个管或管的重量，其在重量计算步骤中与每个管或管相关联，以及用于基于每个管的材料确定外来管或管的存在的步骤在材料确定步骤中确定的管或管。

3. 发明申请

US20100005848A1 Method for producing duplex stainless steel pipe, method for straightening, method for regulating strength, and method for operating straightener 有权
标题翻译：双相不锈钢管的制造方法，矫正方法，强度调节方法以及矫直机的使用方法
公开(公告)号：US20100005848A1
公开(公告)日：2010-01-14
申请号：US12458508
申请日：2009-07-14
申请人： Hajime Osako
发明人： Hajime Osako
IPC分类号： B21B23/00
CPC分类号： B21D3/04 , B21D3/02
摘要： In straightening a duplex stainless steel pipe on a multi-roll pipe straightener, the value of A defined by the formula (1) is set to not more than 2.0% when it is not necessary to improve the mechanical strength of the pipe, and the value of A is set to more than 2.0% but not more than 3% when it is necessary to improve the mechanical strength of the pipe. Thereby, the mechanical strength of the duplex stainless steel pipe is regulated, A=(Di−Hi)/Di (1) where each of the symbols in the formula (1) indicates the following: Di: the outer diameter (mm) of the pipe at an entry side of an i-th stand in the straightener, and Hi: the gap (mm) between groove bottom portions of the rolls at an i-th stand in the straightener.
摘要翻译：在多辊矫直机上矫直双相不锈钢管时，当不需要提高管道的机械强度时，由式（1）定义的A的值设定为不大于2.0％，当需要提高管的机械强度时，A的值设定为大于2.0％但不超过3％。因此，双相不锈钢管的机械强度被调节，式（1）中的每个符号表示如下：A =（Di-Hi）/ Di（1）：Di：外径（mm）矫直机中第i台入口侧的管道，Hi：在矫直机中的第i台上的辊的槽底部之间的间隙（mm）。

4. 发明授权

US07416617B2 High strength seamless steel pipe excellent in hydrogen-induced cracking resistance 有权
标题翻译：高强度无缝钢管耐氢腐蚀性能优良
公开(公告)号：US07416617B2
公开(公告)日：2008-08-26
申请号：US11088740
申请日：2005-03-25
申请人： Nobutoshi Murao , Nobuyuki Hisamune , Hajime Osako , Kunio Kondo
发明人： Nobutoshi Murao , Nobuyuki Hisamune , Hajime Osako , Kunio Kondo
IPC分类号： C22C38/22 , C22C38/28 , C22C38/50
CPC分类号： C21D9/08 , C21D8/10 , C21D2211/002 , C21D2211/005 , C21D2211/008 , C22C38/002 , C22C38/02 , C22C38/04 , C22C38/22 , C22C38/24
摘要： A high strength seamless steel pipe having mgh yield stress and excellent hydrogen-induced cracking resistance, comprises by mass %, C: 0.03-0.11%, Si: 0.05-0.5%, Mn: 0.8-1.6%, p: 0.025% or less, S: 0.003% or less, Ti: 0.002-0.017%, Al: 0.001-0.10%, Cr: 0.05-0.5%, Mo: 0.02-0.3%, V: 0.02-0.20%, Ca 0.0005-0.005%, N: 0.008% or less and O (Oxygen): 0.004% or less, the balance Fe and impurities. The steel microstructure is bainite and/or martensite and ferrite is precipitated at grain boundaries. The seamless steel pipe can contain at least one of Cu: 0.05-0.5% and Ni: 0.05-0.5%. To produce the pipe, it is desirable to limit a starting temperature of quenching after rolling, a cooling rate and a tempering temperature.
摘要翻译：具有mgh屈服应力和优异的氢诱发开裂性的高强度无缝钢管以质量％计含有C：0.03〜0.11％，Si：0.05〜0.5％，Mn：0.8〜1.6％，p：0.025％以下，S：0.003％以下，Ti：0.002〜0.017％，Al：0.001〜0.10％，Cr：0.05〜0.5％，Mo：0.02〜0.3％，V：0.02〜0.20％，Ca：0.0005〜0.005％：0.008％以下，O（氧）：0.004％以下，余量为Fe和杂质。钢组织为贝氏体和/或马氏体，铁素体在晶界析出。无缝钢管可以含有Cu：0.05〜0.5％，Ni：0.05〜0.5％中的至少一种。为了制造管，优选限制轧制后的淬火起始温度，冷却速度和回火温度。

5. 发明授权

US5938865A Process for producing high-strength seamless steel pipe having excellent sulfide stress cracking resistance 失效
标题翻译：具有优异的耐硫化物应力开裂性的高强度无缝钢管的制造方法
公开(公告)号：US5938865A
公开(公告)日：1999-08-17
申请号：US952222
申请日：1998-02-05
申请人： Kunio Kondo , Takahiro Kushida , Hajime Osako , Hideki Takabe
发明人： Kunio Kondo , Takahiro Kushida , Hajime Osako , Hideki Takabe
IPC分类号： B21B19/04 , B21B23/00 , C21D8/10
CPC分类号： B21B23/00 , C21D8/10 , B21B19/04
摘要： A process for producing a seamless steel pipe wherein pipe manufacturing steps and the heat treatment steps are carried out in one production line. The properties of the pipe are comparative or superior to those of the pipe manufactured in the conventional reheating, quenching and tempering process. The process is characterized by using the billet of a low alloy steel containing C: 0.15-0.50%, Cr: 0.1-1.5%, Mo: 0.1-1.5%, Al: 0.005-0.50%, Ti: 0.005-0.50% and Nb: 0.003-0.50%, and comprising the following steps (1) to (5).(1) hot rolling with 40% or more of cross sectional reduction ratio,(2) finishing the hot rolling in a temperature range of 800-1100.degree. C.,(3) putting the manufactured steel pipe promptly in a complementary heating apparatus after the finish rolling, and complementarily heating at the temperature and time satisfying the following formula (a).(4) quenching the steel pipe immediately after taking out of the complementary heating apparatus, and(5) tempering the pipe at a temperature not higher than the Ac.sub.1 transformation point as the last heat treatment.23500.ltoreq.(T+273).times.(21+log t).ltoreq.26000 (a)where, T (.degree.C.) is a temperature of not lower than 850.degree. C., and t is time (hr). Further, an intermediate heat treatment consisting of quenching or combination of quenching and tempering may be applied between the steps (4) and (5).
摘要翻译： PCT No.PCT / JP96 / 01274 Sec。 371日期：1998年2月5日 102（e）日期1998年2月5日PCT提交1996年5月15日PCT公布。公开号WO96 / 36742 日期：1996年11月21日一种生产无缝钢管的方法，其中在一条生产线中进行管制造步骤和热处理步骤。管道的性能与传统的再加热，淬火和回火工艺中制造的管材的性能相比甚至更好。该方法的特征在于使用含有C：0.15-0.50％，Cr：0.1-1.5％，Mo：0.1-1.5％，Al：0.005-0.50％，Ti：0.005-0.50％的低合金钢和Nb ：0.003-0.50％，并且包括以下步骤（1）至（5）。（1）以40％以上的横截面减速比进行热轧，（2）在800-1100℃的温度范围内完成热轧，（3）将制造的钢管迅速置于互补的加热装置中精轧，并在满足下述式（a）的温度和时间下互补加热。（4）在取出补充加热装置后立即淬火钢管，（5）在不高于Ac1相变点的温度下对管进行回火作为最后的热处理.23500

6. 发明授权

US08601852B2 Method of manufacturing seamless pipe and tube 有权
标题翻译：制造无缝管和管的方法
公开(公告)号：US08601852B2
公开(公告)日：2013-12-10
申请号：US12232926
申请日：2008-09-26
申请人： Hajime Osako
发明人： Hajime Osako
IPC分类号： B21C37/06 , B21D31/00 , B21B19/04
CPC分类号： B21B23/00 , B21B17/14 , B21B19/04 , C21D1/18 , C21D8/10 , C21D9/08
摘要： It is a problem of the present invention to provide a method of manufacturing the seamless pipes having better mechanical properties, by means of a pipe manufacturing method with large energy-saving effect to continuously carry out processes from pierce-rolling to heat treatment.A method of manufacturing a seamless pipe comprising the steps of a pierce-rolling process, elongation rolling process, sizing process, reheating process, quenching process and tempering process, wherein the sizing process is completed with a temperature of the seamless pipe not less than 600° C. but less than 800° C., the seamless pipe is charged into a reheating furnace with a temperature not less than 400° C. and is reheated with a temperature not less than Ac3 transformation temperature but not greater than 1000° C. in the reheating process.
摘要翻译：本发明的问题在于提供一种具有较好的机械性能的无缝管的制造方法，通过具有大的节能效果的管材制造方法，连续进行从穿孔轧制到热处理的工序。一种无缝管的制造方法，其特征在于，包括以下步骤：穿孔轧制法，伸长轧制法，上浆工序，再加热处理，淬火处理和回火处理，其中上浆过程以无缝管的温度不小于600 ℃，但小于800℃，将无缝管装入温度不低于400℃的再加热炉中，并在不低于Ac 3相变温度但不大于1000℃的温度下再加热。在再加热过程中。

7. 发明授权

US08006528B2 Method for producing duplex stainless steel pipe, method for straightening, method for regulating strength, and method for operating straightener 有权
标题翻译：双相不锈钢管的制造方法，矫正方法，强度调节方法以及矫直机的使用方法
公开(公告)号：US08006528B2
公开(公告)日：2011-08-30
申请号：US12458508
申请日：2009-07-14
申请人： Hajime Osako
发明人： Hajime Osako
IPC分类号： B21B19/12
CPC分类号： B21D3/04 , B21D3/02
摘要： In straightening a duplex stainless steel pipe on a multi-roll pipe straightener, the value of A defined by the formula (1) is set to not more than 2.0% when it is not necessary to improve the mechanical strength of the pipe, and the value of A is set to more than 2.0% but not more than 3% when it is necessary to improve the mechanical strength of the pipe. Thereby, the mechanical strength of the duplex stainless steel pipe is regulated, A=(Di−Hi)/Di (1) where each of the symbols in the formula (1) indicates the following: Di: the outer diameter (mm) of the pipe at an entry side of an i-th stand in the straightener, and Hi: the gap (mm) between groove bottom portions of the rolls at an i-th stand in the straightener.
摘要翻译：在多辊矫直机上矫直双相不锈钢管时，当不需要提高管道的机械强度时，由式（1）定义的A的值设定为不大于2.0％，当需要提高管的机械强度时，A的值设定为大于2.0％但不超过3％。因此，双相不锈钢管的机械强度被调节，式（1）中的每个符号表示如下：A =（Di-Hi）/ Di（1）：Di：外径（mm）矫直机中第i台入口侧的管道，Hi：在矫直机中的第i台上的辊的槽底部之间的间隙（mm）。

8. 发明申请

US20090183805A1 Cooling method of a steel pipe 审中-公开
标题翻译：钢管冷却方式
公开(公告)号：US20090183805A1
公开(公告)日：2009-07-23
申请号：US12292922
申请日：2008-12-01
申请人： Hajime Osako , Junji Nakata
发明人： Hajime Osako , Junji Nakata
IPC分类号： C21D9/08
CPC分类号： C22C38/02 , B21B2045/0227 , C21D1/18 , C21D1/667 , C21D9/08 , C22C38/04 , C22C38/24 , C22C38/42 , C22C38/44 , C22C38/46 , C22C38/58
摘要： A method of cooling a steel pipe which can effectively suppress quenching-induced bending which occurs when quenching a thin-walled steel pipe with a wall thickness/outer diameter ratio of at most 0.07 without decreasing the manufacturing efficiency of the steel pipe comprises cooling the inner surface of the steel pipe by spraying cooling water into the interior of a horizontally-disposed steel pipe 2 while rotating the pipe in its circumferential direction, and the outer surface is cooled by producing a downward flow of cooling water streams 5a and 5b in a planar shape from above onto the outer surface along the axial direction of the steel pipe 2. Cooling of the inner surface is started at least 7 seconds before cooling of the outer surface. Cooling of the outer surface is carried out by producing downward flow in a planar shape of cooling water 5a and 5b at two locations 4a and 4b at approximately equal distances from the uppermost portion of the steel pipe 2, and the flow rate of cooling water 5a which flows down at a location on the upstream side in the rotational direction of the steel pipe 2 is made larger than the flow rate of cooling water 5b which flows down at a location on the downstream side in the rotational direction.
摘要翻译：一种冷却钢管的方法，其能够有效地抑制在壁厚/外径比为0.07以下的薄壁钢管淬火时发生的淬火引起的弯曲，而不降低钢管的制造效率，通过在将管道沿圆周方向旋转的同时将冷却水喷射到水平布置的钢管2的内部，并且通过在平面上产生冷却水流5a和5b的向下流动来冷却外表面而冷却钢管的表面形状从钢管2的轴向朝向外表面。内表面的冷却在外表面冷却前至少7秒钟开始。外表面的冷却通过在与钢管2的最上部大致相等的距离处的两个位置4a和4b处以冷却水5a和5b的平面形状向下流动，并且冷却水5a的流量使得在钢管2的旋转方向的上游侧的位置向下流动的流量比在旋转方向的下游侧的位置处流下的冷却水5b的流量大。

9. 发明申请

US20090038358A1 Method of manufacturing seamless pipe and tube 有权
标题翻译：制造无缝管和管的方法
公开(公告)号：US20090038358A1
公开(公告)日：2009-02-12
申请号：US12232926
申请日：2008-09-26
申请人： Hajime Osako
发明人： Hajime Osako
IPC分类号： B21B19/04
CPC分类号： B21B23/00 , B21B17/14 , B21B19/04 , C21D1/18 , C21D8/10 , C21D9/08
摘要： It is a problem of the present invention to provide a method of manufacturing the seamless pipes having better mechanical properties, by means of a pipe manufacturing method with large energy-saving effect to continuously carry out processes from pierce-rolling to heat treatment.A method of manufacturing a seamless pipe comprising the steps of a pierce-rolling process, elongation rolling process, sizing process, reheating process, quenching process and tempering process, wherein the sizing process is completed with a temperature of the seamless pipe not less than 600° C. but less than 800° C., the seamless pipe is charged into a reheating furnace with a temperature not less than 400° C. and is reheated with a temperature not less than Ac3 transformation temperature but not grater than 1000° C. in the reheating process.
摘要翻译：本发明的问题在于提供一种具有较好的机械性能的无缝管的制造方法，通过具有大的节能效果的管材制造方法，连续进行从穿孔轧制到热处理的工序。一种无缝管的制造方法，其特征在于，包括以下步骤：穿孔轧制法，伸长轧制法，上浆工序，再加热处理，淬火处理和回火处理，其中上浆过程以无缝管的温度不小于600 ℃，但低于800℃，将无缝管装入温度不低于400℃的再热炉中，并且在不低于Ac 3相变温度但不超过1000℃的温度下再加热。在再加热过程中。

10. 发明申请

US20080283161A1 High strength seamless steel pipe excellent in hydrogen-induced cracking resistance and its production method 审中-公开
标题翻译：高强度无缝钢管耐氢破坏性优良及其制备方法
公开(公告)号：US20080283161A1
公开(公告)日：2008-11-20
申请号：US12219390
申请日：2008-07-22
申请人： Nobutoshi Murao , Nobuyuki Hisamune , Hajime Osako , Kunio Kondo
发明人： Nobutoshi Murao , Nobuyuki Hisamune , Hajime Osako , Kunio Kondo
IPC分类号： C21D9/08
CPC分类号： C21D9/08 , C21D8/10 , C21D2211/002 , C21D2211/005 , C21D2211/008 , C22C38/002 , C22C38/02 , C22C38/04 , C22C38/22 , C22C38/24
摘要： The present invention relates to a high strength seamless steel pipe excellent in hydrogen-induced cracking resistance, characterized by consisting of, by mass %, C: 0.03-0.11%, Si: 0.05-0.5%, Mn: 0.8-1.6%, P: 0.025% or less, S: 0.003% or less, Ti: 0.002-0.017%, Al: 0.001-0.10%, Cr: 0.05-0.5%, Mo: 0.02-0.3%, V: 0.02-0.20%, Ca: 0.0005-0.005%, N: 0.008% or less and O (Oxygen): 0.004% or less, and the balance Fe and impurities, and also characterized in that the microstructure of the steel is bainite and/or martensite, ferrite is precipitated at grain boundaries and yield stress is 483 MPa or more. Further, to ensure high strength of the steel, the seamless steel pipe preferably contains, by mass %, at least one of Cu: 0.05-0.5% and Ni: 0.05-0.5%. To produce the above-mentioned steel pipe, it is desirable to limit a starting temperature of quenching after rolling, a cooling rate and a tempering temperature. By this configuration a seamless steel pipe having an yield stress of 483 MPa or more and excellent HIC resistance, which is suitable for a pipeline, can be provided.
摘要翻译：本发明涉及氢诱发抗裂性优异的高强度无缝钢管，其特征在于以质量％计含有C：0.03-0.11％，Si：0.05-0.5％，Mn：0.8-1.6％，P ：0.025％以下，S：0.003％以下，Ti：0.002〜0.017％，Al：0.001-0.10％，Cr：0.05〜0.5％，Mo：0.02〜0.3％，V：0.02〜0.20％，Ca： 0.0005-0.005％，N：0.008％以下，O（氧）：0.004％以下，余量为Fe和杂质，其特征在于，钢的组织为贝氏体和/或马氏体，铁素体析出晶界和屈服应力为483MPa以上。此外，为了确保钢的高强度，无缝钢管优选以质量％计含有Cu：0.05〜0.5％和Ni：0.05〜0.5％中的至少一种。为了制造上述钢管，优选限制轧制后的淬火起始温度，冷却速度和回火温度。通过这种结构，可以提供一种适用于管道的屈服应力为483MPa以上，耐HIC电阻优异的无缝钢管。

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