摘要:
Provided is an electrode (1) which has a double structure including Cu or a Cu alloy as an electrode body (2) and a core material (3) made of W, Mo, a W-based alloy, or a Mo-based alloy embedded in a surface of the electrode body (2) which is abutted against a material to be welded, the core material (3) being formed by using W, Mo, the W-based alloy, or the Mo-based alloy which is in the form of a fibrous structure extended by sintering, swaging, and annealing in an electrode axis direction, the fibrous structure having a horizontal cross-sectional average particle diameter of 50 μm or more and an aspect ratio of 1.5 or more. The electrode (1) can be used as an inexpensive electrode obtained by suppressing particle dropping/attrition and defects in electrodes for spot welding, in which heat and pressure are applied repeatedly, stably enhancing durability.
摘要:
A terminal (20) has a terminal main body (51) with a projection (55) to be engaged with a retainer (40). A wire barrel (21) to be crimped to a core (11) of a wire (10), an insulation barrel (23) to be crimped to an insulating coating (12) and a rubber plug barrel (24) to be crimped to a rubber plug (15) are successively arranged behind the main body (51). Bottom parts of the wire barrel (21) and the insulation barrel (23) are at low positions having substantially the same height. A front end of the wire barrel (23) is crimped flat to suppress bend-up of the core (11). The front end of the crimped wire barrel (21) is insertable to a position facing a projecting end of the retainer (40) when the terminal (20) is inserted to a proper position in a cavity (31) of a housing (30).
摘要:
A terminal fitting (10, 130, 510) has a connecting portion (11, 131, 511) to be connected with a mating connecting portion, and a crimping portion (12, 140) continuous with the rear end of the connecting portion (11, 131, 511) and including a bottom plate (21, 148, 515) and crimping pieces (22, 147, 516) standing up from the bottom plate (21, 148, 515). The crimping portion (12, 140) is crimped into connection with a wire (30, 120, 590) while surrounding an end portion of the wire (30, 120, 590) by the bottom plate (21, 148, 515) and the crimping pieces (22, 147, 516). The bottom plate (21, 148, 515) is formed with a reinforcing rib (24, 150, 250, 350, 450, 525) extending in forward and backward directions.
摘要:
Locking lances (12) are formed at an outer wall (10B) of a housing (10) and are resiliently deformable between engaging positions to engage terminals (20) and disengaging positions outward from the engaging positions to permit the insertion and withdrawal of the terminals (20). Leading end surfaces (12B) of the locking lances (12) are inclined to project gradually forward toward an inner side of the housing (10). A facing surface (15A) of the outer wall (10B) of the housing 10 facing the leading end surfaces (12B) of the locking lances 12 is inclined to project gradually toward the locking lances (12) at more outward positions on the housing (10). The leading end surfaces (12B) of the locking lances (12) contact the facing surface (15A) when the locking lances (12) are deformed outward beyond the disengaging positions.
摘要:
An object of the present invention is to provide a TiO2-containing quartz glass substrate which, when used as a mold base for nanoimprint lithography, can form a concavity and convexity pattern having a dimensional variation falling within ±10%. The invention relates to a TiO2-containing quartz glass substrate: in which a coefficient of thermal expansion in the range of from 15 to 35° C. is within ±200 ppb/° C.; a TiO2 concentration is from 4 to 9 wt %; and a TiO2 concentration distribution, in a substrate surface on the side where a transfer pattern is to be formed, is within ±1 wt %.
摘要翻译:本发明的目的是提供一种含TiO 2的石英玻璃基板,其用作纳米压印光刻用的模具基底时,可以形成尺寸变化在±10%以内的凹凸图案。 本发明涉及一种含TiO 2的石英玻璃基板,其中15至35℃范围内的热膨胀系数在±200ppb /℃以内。 TiO 2浓度为4〜9重量%。 并且在要形成转印图案的一侧的基板表面中的TiO 2浓度分布在±1重量%以内。
摘要:
An object of the invention is to provide a method for removing foreign matter from a glass substrate surface to be finish-processed by a method accompanied with beam irradiation or laser light irradiation on the glass substrate surface. The present invention relates to a method for removing foreign matter from a glass substrate surface, which includes subjecting the glass substrate surface to gas cluster ion beam etching at an accelerating voltage of from 5 to 15 keV.
摘要:
The present invention is to provide a method for processing the whole of a glass substrate surface so as to give a surface excellent in flatness and surface roughness. The present invention provides a method of processing a glass substrate surface using a processing technique selected from the group consisting of ion-beam etching, gas cluster ion-beam etching, plasma etching, and nano-ablation, wherein a frame element satisfying the following (1) and (2) is arranged along the periphery of the glass substrate before the glass substrate surface is processed: (1) the difference between the height of the frame element and the height of the glass substrate surface is 1 mm or smaller; and (2) the frame element has a width which is not smaller than one-half the beam diameter or laser light diameter to be used in the processing technique.
摘要:
A joint connector (10) has sub-housings (S) (S1 to S6) that can be built up in plural levels. Projecting pieces (31) project on outer sides of the respective sub-housings (S) in directions intersecting a build-up direction (BUD) of the sub-housings (S) and define hand-push portions (13) by building up the sub-housings (S). The sub-housings (S) built up in levels are fit into the intermediate connector (20) by pushing the hand-push portions (13) towards the intermediate connector (20) so that terminal fittings (40) in the joint connector (10) are connected electrically with intermediate terminals (24) in the intermediate connector (20). Identifying projections (A) on the lower mating surfaces of the projecting pieces (31) enter identifying recesses (B) in the upper mating surfaces of adjacent projecting pieces (31) if the sub-housings (S) are built up properly.
摘要:
A circuit board connector has metal fixing portions (60) for fixing a synthetic resin housing (10) to a circuit board (K). The fixing portions (60) are mounted into the housing (10) and are soldered to the circuit board (K). The housing (10) has mounting grooves (15) for receiving the fixing portions (60), whereas the fixing portions (60) have retaining portions (67) for biting in edges of the mounting grooves (15) to prevent the fixing portions (60) from coming out of the mounting grooves (15). Contact positions of the retaining portions (67) and edges of the mounting grooves (15) are lower than half the maximum height (L1) of the housing (10) for keeping the fixing portions (60) solder-connected with the circuit board (K) against a separating force on the fixing portions (60) in a direction away from the circuit board (K) as the housing (10) thermally expands.
摘要:
Fixing members (30) fixable to a circuit board (K) by soldering are mounted in a housing (10). Each fixing member (30) is comprised of a main panel (31) and a solder leg (32) projecting sideways from the bottom end of the main portion (31). The solder leg (32) has solder entering holes (37) that open at a side of the solder leg (32) toward the circuit board K and at a side opposite therefrom. Each solder entering hole (37) has a cross-section that gradually increases toward both upper and lower open ends (37a, 37b). A locking portion (38) is formed on each solder entering hole (37) and bulges more inward than both open ends (37a, 37b). The locking portion (38) locks solder (H) that enters the solder entering hole (37).