An exemplary assembly includes at least one elongated tension member. A jacket covers at least some of the tension member. The polymer jacket comprises a polymer material including a melamine based geometry stabilizer that facilitates maintaining the jacket material near the tension member if the assembly is subjected to a high temperature condition.

An exemplary assembly includes at least one elongated tension member. A jacket covers at least some of the tension member. The polymer jacket comprises a polymer material including a melamine based geometry stabilizer that facilitates maintaining the jacket material near the tension member if the assembly is subjected to a high temperature condition.

To provide an insole more easily fitting to a purchaser's foot. A method for manufacturing an insole comprises: a first step of forming a footprint resin portion 12 having a footprint shape having a predetermined thickness using a thermoplastic resin which melts at a predetermined temperature; a second step of performing shrink processing such that the footprint resin portion 12 is covered with a film, and thereafter vacuum packing the footprint resin portion covered with the film in a nylon polyethylene bag; a third step of heating the insole 10 manufactured through the first step and the second step at a predetermined temperature; and a fourth step of attaching the insole 10 having the footprint resin portion 12 melt by the third step to the inside of a shoe 2 of a user, and hardening the footprint resin portion 12 by leaving the shoe 2 stand for a predetermined time period while the user is wearing the shoe 2.

To provide an insole more easily fitting to a purchaser's foot. A method for manufacturing an insole comprises: a first step of forming a footprint resin portion 12 having a footprint shape having a predetermined thickness using a thermoplastic resin which melts at a predetermined temperature; a second step of performing shrink processing such that the footprint resin portion 12 is covered with a film, and thereafter vacuum packing the footprint resin portion covered with the film in a nylon polyethylene bag; a third step of heating the insole 10 manufactured through the first step and the second step at a predetermined temperature; and a fourth step of attaching the insole 10 having the footprint resin portion 12 melt by the third step to the inside of a shoe 2 of a user, and hardening the footprint resin portion 12 by leaving the shoe 2 stand for a predetermined time period while the user is wearing the shoe 2.

A neurovascular catheter is provided, such as for distal neurovascular access or aspiration. The catheter includes an elongate flexible tubular body, having a proximal end, a distal end and a side wall defining a central lumen. The side wall includes a tubular inner liner, a tie layer separated from the central lumen by the inner liner, a helical coil at least partially overlapping the tie layer, and a tubular braid. A first section of adjacent windings of the helical coil can be spaced farther apart from each other than a second section of adjacent windings of the helical coil.

A neurovascular catheter is provided, such as for distal neurovascular access or aspiration. The catheter includes an elongate flexible tubular body, having a proximal end, a distal end and a side wall defining a central lumen. A distal zone of the tubular body includes a tubular inner liner, a tie layer separated from the lumen by the inner liner, a helical coil surrounding the tie layer, an outer jacket surrounding the helical coil, and an opening at the distal end. Adjacent windings of the helical coil are spaced progressively further apart in the distal direction. The opening at the distal end of the tubular body is enlargeable from a first inside diameter for transluminal navigation to a second, larger inside diameter to facilitate aspiration of thrombus into the lumen.

The present disclosure relates to a screen protector sticking method, a screen protector sticking tool, and a screen protector plate assembly. The screen protector sticking tool includes a main body piece, a front locating piece, a rear locating piece, and a pressing assembly. The pressing assembly includes a sliding cover, a scraper blade, and an elastic member. The sliding cover is slidably connected to the main body piece, and the scraper blade is rotatably connected to the sliding cover; the scraper blade is oblique relative to the sliding cover and gradually moves away from a first end in a direction from the sliding cover towards the main body piece; and the elastic member is arranged between the sliding cover and the scraper blade to adaptively adjust a height position of the scraper blade.

The present disclosure relates to a screen protector sticking method, a screen protector sticking tool, and a screen protector plate assembly. The screen protector sticking tool includes a main body piece, a front locating piece, a rear locating piece, and a pressing assembly. The pressing assembly includes a sliding cover, a scraper blade, and an elastic member. The sliding cover is slidably connected to the main body piece, and the scraper blade is rotatably connected to the sliding cover; the scraper blade is oblique relative to the sliding cover and gradually moves away from a first end in a direction from the sliding cover towards the main body piece; and the elastic member is arranged between the sliding cover and the scraper blade to adaptively adjust a height position of the scraper blade.