Today our topic is the performance and use of titanium-copper alloy materials. As the name suggests, today's protagonist is titanium-copper alloy. Today's content is divided into two parts. The first part is the performance of titanium-copper alloy materials. The second part is the use of titanium and copper materials. Well, not much nonsense. Before starting the topic of the properties and uses of titanium-copper alloy materials, let's take a look at what is titanium-copper alloy.
Titanium-copper alloy refers to copper containing 2.9~3.5% titanium. It is a high-reliability and high-performance copper alloy. Especially, in the final stage of the alloy manufacturing process, temperature aging treatment is applied. This effect is like another Calendering makes the material more rigid and strong, and at the same time increases the conductivity and elongation. This is overpowering the thinning of electronic materials.
Titanium copper alloy material
The basic composition of performance and use of titanium-copper alloy materials
Titanium-copper alloy refers to a copper material containing 2.9~3.5% titanium, the alloy copper + titanium is 99.5%, and the others are trace elements.
Titanium copper alloy material performance and use characteristics
Titanium-copper alloy commercial products for flexible connectors include MMYCUT-F, YCuT-M, YCuT-T, YCuT-FX 4 series manufactured by DOWAmetanix Co. LTD of Japan.
The mechanical properties and physics of one of the series are shown in the following 2 tables, and its tensile strength, elastic modulus, elongation, hardness, electrical conductivity, and heat resistance have reached the level of beryllium bronze.
Features:
high-performance precipitation hardening copper alloy, with extremely high strength, high elasticity, heat resistance, excellent fatigue resistance, good minimum bending radius (R/t) and higher yield strength.
The properties and uses of titanium-copper alloy materials:
can be applied to electrical contact parts, springs, switches, sockets, connectors and connectors in both signal and power. It can completely replace beryllium copper that has been aging heat treated. CORSON often has electroplated tin in connector applications. The commonly used method is hot dip tin plating or electrolytic plating (re-melting plating), which can provide better adhesion and solderability.
Imported titanium copper produced in Japan, titanium copper, as a material comparable to beryllium copper in terms of elasticity, is now more and more widely used; and today with higher and higher environmental protection requirements, the demand for titanium copper is also increasing day by day. The most widely used are YCUT-M and YCUT-F, both of which have been heat-treated.
The performance and application status of titanium-copper alloy materials
At present, there is no international unified standard for copper-titanium alloy. Japan has standards JISH3130-2006 Copper beryllium alloy, coppertitanium alloy, phosphorbronze, copper-nickel-tinalloy and nickel silversheets, plates and strips for springs Thin sheet). In the high-end high-speed connector industry, the author has not yet seen the application of copper-titanium alloys. Titanium bronze is cheaper than beryllium bronze and is an environmentally friendly material, unlike beryllium which has a negative effect on human health.
2TA23 titanium copper alloy grade and chemical composition and performance 2TA23 titanium copper alloy chemical composition: titanium balance copper 2.0-3.0 iron 0.20 carbon 0.08 hydrogen 0.010 use
Titanium-copper alloy refers to copper containing 2.9~3.5% titanium. It is a high-reliability and high-performance copper alloy. Especially, in the final stage of the alloy manufacturing process, temperature aging treatment is applied. This effect is like another Calendering makes the material more rigid and strong, and at the same time increases the conductivity and elongation. This is overpowering the thinning of electronic materials.
Titanium copper alloy material
The basic composition of performance and use of titanium-copper alloy materials
Titanium-copper alloy refers to a copper material containing 2.9~3.5% titanium, the alloy copper + titanium is 99.5%, and the others are trace elements.
Titanium copper alloy material performance and use characteristics
Titanium-copper alloy commercial products for flexible connectors include MMYCUT-F, YCuT-M, YCuT-T, YCuT-FX 4 series manufactured by DOWAmetanix Co. LTD of Japan.
The mechanical properties and physics of one of the series are shown in the following 2 tables, and its tensile strength, elastic modulus, elongation, hardness, electrical conductivity, and heat resistance have reached the level of beryllium bronze.
Features:
high-performance precipitation hardening copper alloy, with extremely high strength, high elasticity, heat resistance, excellent fatigue resistance, good minimum bending radius (R/t) and higher yield strength.
The properties and uses of titanium-copper alloy materials:
can be applied to electrical contact parts, springs, switches, sockets, connectors and connectors in both signal and power. It can completely replace beryllium copper that has been aging heat treated. CORSON often has electroplated tin in connector applications. The commonly used method is hot dip tin plating or electrolytic plating (re-melting plating), which can provide better adhesion and solderability.
Imported titanium copper produced in Japan, titanium copper, as a material comparable to beryllium copper in terms of elasticity, is now more and more widely used; and today with higher and higher environmental protection requirements, the demand for titanium copper is also increasing day by day. The most widely used are YCUT-M and YCUT-F, both of which have been heat-treated.
The performance and application status of titanium-copper alloy materials
At present, there is no international unified standard for copper-titanium alloy. Japan has standards JISH3130-2006 Copper beryllium alloy, coppertitanium alloy, phosphorbronze, copper-nickel-tinalloy and nickel silversheets, plates and strips for springs Thin sheet). In the high-end high-speed connector industry, the author has not yet seen the application of copper-titanium alloys. Titanium bronze is cheaper than beryllium bronze and is an environmentally friendly material, unlike beryllium which has a negative effect on human health.
2TA23 titanium copper alloy grade and chemical composition and performance 2TA23 titanium copper alloy chemical composition: titanium balance copper 2.0-3.0 iron 0.20 carbon 0.08 hydrogen 0.010 use