High hardness amorphous composite and preparation method and application thereof
Patent number: 10724126
Abstract: The present invention relates to a high hardness amorphous composite, a method of preparing the high hardness amorphous composite and application thereof. The high hardness amorphous composite includes a basic alloy component, a hard additive and a bonding additive. The basic alloy component includes 45-60 mole % Zr, 5-10 mole % Hf, 5-15 mole % Al, 8-22 mole % Ni and 6-14 mole % Cu, the hard additive is ZrC or WC nanometer powder with addition amount at 12-26 wt % of the basic alloy component, particle diameter of the WC nanometer powder is 10-100 nm, and the bonding additive is any one or two selected from groups of Re, W or Mo with addition amount at 4-8 wt % of the basic alloy component. The high hardness Zr-based amorphous composite with good workability and formability is provided by improving composition of alloy based on Zr—Al—Ni—Cu, adding new component and adjusting component content.
Type: Grant
Filed: June 22, 2016
Date of Patent: July 28, 2020
Assignee: DONGGUAN EONTEC CO., LTD.
Inventors: Yangde Li, Tiezhuang Tang, Weirong Li
1 GPA HIGH-STRENGTH HIGH-MODULUS ALUMINUM-BASED LIGHT MEDIUM-ENTROPY ALLOY AND PREPARATION METHOD THEREOF
Publication number: 20200123635
Abstract: A 1 GPa high-strength high-modulus aluminum-based light medium-entropy alloy and a preparation method thereof. An atomic expression of the designed medium-entropy alloy is AlxLiyMgzZnuCuv, subscripts representing the molar percentage of each corresponding alloy element, where x+y+z+u+v=100, x is 79.5-80.5, y is 1.5-2.5, z is 1.5-2.5, u is 13.5-14.5, and v is 1.5-2.5. The phase structure of the involved alloy is mainly based on a face-centered cubic (FCC) solid solution. The present invention obtains high performance aluminum alloy ingots through vacuum induction smelting and direct casting, and features low energy consumption, decreased cost, and simple operation in the preparation process, which cater to the high requirements on cost, strength and plasticity of light alloys applied in the high-end manufacturing industries such as aerospace and automobile electronics nowadays.
Type: Application
Filed: October 18, 2019
Publication date: April 23, 2020
Inventors: Yong Zhang, Ruixuan Li, Tao Zhang, Yangde Li
Casting and molding equipment and method of manufacturing amorphous alloy structural unit
Patent number: 10293405
Abstract: A casting and molding equipment for producing an amorphous alloy structural unit, including an injection system, an alloy melting system, a material feeding system, a mold system, a vacuum system, and a protective gas supply system. The injection system includes an injection tube, an injection mechanism, and a plunger rod; the plunger rod is adapted to move along an inner wall of the injection tube, and the injection mechanism is configured to control a moving direction and moving speed of the plunger rod. The alloy melting system includes a melting chamber and a heating unit; the heating unit is configured to melt an alloy material in the melting chamber; the heating unit includes an induction coil or resistance wire; the melting chamber is disposed in the injection tube, and the heating unit is disposed out of the injection tube.
Type: Grant
Filed: May 27, 2016
Date of Patent: May 21, 2019
Assignee: DONGGUAN EONTEC CO., LTD.
Inventors: Huameng Fu, Haifeng Zhang, Aimin Wang, Zhengwang Zhu, Hongwei Zhang, Hong Li, Yangde Li, Weirong Li, Tiezhuang Tang
HIGH HARDNESS AMORPHOUS COMPOSITE AND PREPARATION METHOD AND APPLICATION THEREOF
Publication number: 20190112695
Abstract: The present invention relates to a high hardness amorphous composite, a method of preparing the high hardness amorphous composite and application thereof. The high hardness amorphous composite includes a basic alloy component, a hard additive and a bonding additive. The basic alloy component includes 45-60 mole % Zr, 5-10 mole % Hf, 5-15 mole % Al, 8-22 mole % Ni and 6-14 mole % Cu, the hard additive is ZrC or WC nanometer powder with addition amount at 12-26 wt % of the basic alloy component, particle diameter of the WC nanometer powder is 10-100 nm, and the bonding additive is any one or two selected from groups of Re, W or Mo with addition amount at 4-8 wt % of the basic alloy component. The high hardness Zr-based amorphous composite with good workability and formability is provided by improving composition of alloy based on Zr—Al—Ni—Cu, adding new component and adjusting component content.
Type: Application
Filed: June 22, 2016
Publication date: April 18, 2019
Inventors: Yangde LI, Tiezhuang Tang, Weirong Li
