公开(公告)号：US5151140A

公开(公告)日：1992-09-29

申请号：US450781

申请日：1989-12-14

Applicant: Makoto Takagi

Inventor： Makoto Takagi

IPC: B60C15/00 ,  B60C15/06

CPC classification number: B60C15/06 ,  B60C15/0607 ,  Y10T152/10828 ,  Y10T152/10837

Abstract: A heavy-duty pneumatic radial tire having a bead portion comprising a carcass layer having its respective end portions turned up about a bead core from the inner side to the outer side of the tire and at least two reinforcing layers disposed along a portion of the carcass layer, which tire comprises an inner reinforcing layer having a tenacity of from 30 kg/mm of layer width inclusive to 80 kg/mm of layer width not inclusive, incorporated on the inner side of the bead portion, and an outer reinforcing layer having a greater tenacity than the inner reinforcing layer and of at least 80 kg/mm, of layer width incorporated on the outside of the bead portion, wherein cords in the inner reinforcing layer and those in the outer reinforcing layer are inclined in a same direction relative to the radial direction of the tire, and when mounted on a vehicle the direction of inclination of the cords in the inner and the outer reinforcing layers is opposite the direction of forward rotation of the tire.

Abstract translation: 一种重型充气子午线轮胎，其具有胎圈部分，胎圈部分包括胎体层，胎体层的相应端部围绕胎圈芯从轮胎的内侧向外侧弯曲，并且沿着胎体的一部分设置有至少两个加强层 层，该轮胎包括内筋加强层，所述内增强层的强度为30kg / mm的层宽度，包括不包括在内的80kg / mm的层宽度，并入胎圈部分的内侧，外增强层具有 内侧增强层的强度比内侧加强层更大，并且在胎圈部的外侧具有至少80kg / mm的层宽度，其中，内部加强层和外部增强层中的帘线相对于 轮胎的径向方向，并且当安装在车辆上时，内侧和外侧加强层中的帘线的倾斜方向与ti的正向旋转方向相反 回覆。

公开(公告)号：US4711795A

公开(公告)日：1987-12-08

申请号：US910269

申请日：1986-09-19

Applicant: Yukihisa Takeuchi ,  Makoto Takagi

Inventor： Yukihisa Takeuchi ,  Makoto Takagi

IPC: B32B15/01 ,  B22F3/08 ,  B22F7/06 ,  B23K20/08 ,  B32B15/04 ,  C23C24/02 ,  C23C24/04 ,  C23C24/06 ,  B05D5/12

CPC classification number: B22F7/06 ,  C23C24/02

Abstract: A method of manufacturing an amorphous-metal-coated structure having a base material and an amorphous metal coating layer which coats the base material includes a step of applying a high energy rate forming treatment to both the base material and an amorphous metal disposed on the surface of the base material in such a manner that the amorphous metal is firmly bonded to the surface of the base material in the form of a coating layer. In the amorphous-metal-coated structure manufactured by this method, the amorphous metal and the metal constituting the base material are forced to protrude into each other at the bonding interface, and thereby the amorphous metal coating layer is firmly bonded to the base material by means of the metallic binding force. The amorphous metal-coated article may be employed as a member for a torque sensor.

Abstract translation: 制造具有基材的非晶质金属被覆结构体和覆盖基材的无定形金属被覆层的方法包括对基材和布置在表面上的非晶态金属两者进行高能量成形处理的步骤 以非晶金属以涂层的形式牢固地结合到基材的表面上。 在通过该方法制造的非晶金属涂层结构中，非晶金属和构成基材的金属在接合界面处被迫彼此突出，由此非晶金属涂层通过以下方式牢固地结合到基材上： 金属结合力的手段。 非晶金属涂层制品可用作扭矩传感器的构件。