There are scouring abrasion and impact wear two basic types. The microstructure of two kinds of metal loss in process of wear and tear is not exactly the same.
有冲刷磨损和撞击磨损两种基本类型。两种磨损的金属流失过程的微观形态是不完全相同的。
Impact abrasive wear is one of the worst conditions on abrasion.
冲击磨料磨损是一种极恶劣的磨损工况。
But the jaw plate must be replaced frequently because the abrasion is severe for intense impact and attrition wear from ores.
但是,由于颚式破碎机工作时受到矿石的强烈撞击和磨损,磨损仍然非常严重,几天就需要更换新的颚板。
The influence of varying impact energy on wear resistance of dual phase cast steel has been investigated under impact three body abrasion.
在动载三体磨粒磨损条件下,试验研究了冲击载荷的变化对铸态复相耐磨钢动载磨粒磨损特性的影响。
LCHA with several variations of composition were tested with a modified MLD-10 wear tester to investigate their behavior under corrosive impact abrasion.
在改进的MLD - 10型冲击腐蚀磨损试验机上,对不同成分的低碳高合金钢的冲击腐蚀磨损性能进行了测试。
Under three different impact energy, LCHA with Mn in place of Ni were tested with a modified MLD-10 wear tester to investigate their behavior of corrosive impact abrasion.
在改进的MLD - 10型冲击腐蚀磨损试验机上,选择三种不同的冲击功,对以锰代镍的低碳高合金钢的冲击腐蚀磨损性能进行了测试。
Wear loss of specimens for these two steels during a certain time show that low carbon high alloy steel is much more resistant to corrosive impact abrasion than high manganese steel.
比较两种材料试样在一定时间内的失重变化情况,表明低碳高合金钢的抗冲击腐蚀磨损性能优于高锰钢。
There are scouring abrasion and impact wear two basic types.
有冲刷磨损和撞击磨损两种基本类型。
The results show that the impact energy has great influence on the corrosive impact abrasion properties and wear mechanisms of the two steels.
结果表明,冲击功对两种钢的冲击腐蚀磨损性能和机制具有很大的影响。
Effect of impact on wear resistance of high chromium cast iron and austenitic stainless steel has been studied by ball-on-ball impact and pin-on-disc abrasion test.
通过落球冲击和滑动磨损试验探讨了冲击对高铬铸铁和奥氏体不锈钢耐磨性的影响。
Failure analysis of high chromium cast iron liner has been studied by the microstructure, pole-pan wear abrasion, wet grinding and impact toughness.
用微观组织分析、杆盘式磨损、湿磨法磨损和冲击韧性等试验手段,对高铬铸铁衬板的显微组织、力学性能和耐磨性进行了试验分析。
Failure analysis of high chromium cast iron liner has been studied by the microstructure, pole-pan wear abrasion, wet grinding and impact toughness.
用微观组织分析、杆盘式磨损、湿磨法磨损和冲击韧性等试验手段,对高铬铸铁衬板的显微组织、力学性能和耐磨性进行了试验分析。
应用推荐