Method and device for forming magnesium alloy formed parts with excellent high-temperature mechanical property
A high-temperature mechanics, magnesium alloy technology, applied in the fields of laser processing and magnesium alloy forming, can solve the problem of low forming rate, inability to improve high temperature, high strength and high temperature creep resistance of magnesium alloy formed parts, and inability to ensure the surface quality of magnesium alloy formed parts and other problems, to achieve the effect of improving forming efficiency, microstructure stability, good high temperature and high strength and high temperature creep resistance
Active Publication Date: 2013-10-23
JIANGSU UNIV
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Problems solved by technology
[0012] The purpose of the present invention is to provide a magnesium alloy formed parts that can not only realize the warm and high strain rate rapid forming of magnesium alloy plates, but also obtain high temperature mechanical properties such as superior high temperature high strength and high temperature creep resistance after forming. The plastic forming device and method overcome the shortcomings of the current warm-thermoplastic forming method for magnesium alloys that cannot improve high-temperature mechanical properties such as high-temperature high-strength and high-temperature creep resistance of magnesium alloy formed parts, cannot guarantee the surface quality of magnesium alloy formed parts, and low forming rate, etc., Provided is a warm-heat high-strain-rate forming device and method that uses warm laser peening technology to improve the high-temperature mechanical properties and high-temperature creep resistance of magnesium alloy formed parts
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[0055] Using AZ91D magnesium alloy as hot laser shot peening experiment
[0056] 1. Material preparation
[0057] The material used in the experiment is the AZ91D magnesium alloy casting plate provided by Shanxi Jingjing Alloy Co., Ltd. The sample size is 5mm thick, 100mm×120mm rectangular, and its chemical composition is shown in Table 1. The experimental material is homogenized and annealed. 230°C, heat preservation for 1h and then cool with the furnace.
[0058] Table 1 The chemical element composition of the AZ91D magnesium alloy sheet used in the experiment (%, mass fraction)
[0059] Al Zn mn Cu Fe Ni Si Impurities Mg 9.1 0.53 0.20 <0.025 <0.0004 <0.001 <0.05 0.01 margin
[0060] 2. Forming process
[0061] (1) According to Figure 4 The shape and forming requirements of the formed parts shown in the figure are well designed for the shape of the die 6, the trajectory of the laser shock forming and the laser processing paramet...
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Abstract
The invention discloses a method and a device for forming magnesium alloy formed parts with excellent high-temperature mechanical property. The device mainly comprises a die, a laser, a thermal sensor, a miniature heater and the like. The method includes: heating magnesium alloy to 120-150 DEG C to realize high-speed contact molding according to the laser peening quick-forming technology which utilizes dynamic strain ageing reinforcement, heat forming and high-pressure strain rate of thermal laser peening, placing magnesium alloy plates on a die in a work cavity, attaching energy converters on the magnesium alloy plates, vacuumizing the work cavity, and realizing high-speed contact molding of the magnesium alloy plates by the thermal laser peening process through the miniature heater and the laser. Dislocation anchoring effect and nano precipitates are formed in formed parts by the thermal laser peening technology, so that the magnesium alloy formed parts have excellent high-temperature mechanical property such as high-temperature creep resistance, high-temperature strength and the like, thermal high-strain-rate forming of the magnesium alloy plates is realized, and forming performance and efficiency of the magnesium alloy are improved.
Description
technical field [0001] The invention relates to the field of magnesium alloy forming and the field of laser processing, in particular to a forming device and method for obtaining magnesium alloy plate forming parts with superior high-temperature mechanical properties. It is mainly used to improve the formability and high-temperature mechanical properties of magnesium alloys, and provides a new and effective technology for plastic forming of magnesium alloy sheets. Background technique [0002] As a green engineering material in the 21st century, magnesium alloy has broad development prospects. Due to the special structure of magnesium alloys, magnesium alloys have a close-packed hexagonal crystal structure, and only three slip coefficients of the basal plane {0001} can be deformed at room temperature, so the plastic processing performance at room temperature is very poor, which is the plasticity of magnesium alloys. The important reason for the lack of processing and for...
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IPC IPC(8): B21D31/00B23K26/18
Inventor 周建忠谢小江黄舒陈寒松杨晶樊玉杰季杏露左立党安中伟
Owner JIANGSU UNIV