粉末冶金技术

本文简要介绍了SLS技术的工作原理及工艺过程，以及近年来的研究进展和工程应用情况，并着重对比分析了SLS与常规粉末冶金技术的异同。

The principle , process and application in engineering of SLS were overviewed , and the differences between SLS and regular powder metallurgy technology were especially compared .

粉末冶金技术节能省材的理论探讨

Theoretical Research about Saving Energy and Material of Powder Metallurgy Technology

研究了钢纤维含量及长径比对汽车离合器用Cu基金属陶瓷摩擦材料硬度、力学性能及摩擦磨损性能的影响.采用粉末冶金技术，制备了铜基陶瓷强化摩擦材料。

Cu-based friction materials reinforced with steel fibers of different ratios of , length-to-diameter ratios were prepared making use of powder metallurgy .

本文采用不加压烧结粉末冶金技术，针对化学镀方法制备的纳米Al2O（3（P））化学镀铜复合粉体的烧结致密化特性进行了系统的研究；

In the paper the densification properties of Cu-coated nano-Al2O3 ( p ) compounds prepared by electroless copper plating have been researched by the method of pressureless sintering .

对于玻璃形成能力较弱的合金（例如Al合金）而言，粉末冶金技术是获得三维大尺寸非晶合金样品的最佳途径。

For those alloy systems with low glass forming ability , such as Al-based alloy system , powder metallurgy technique is the most effective way to obtain bulk-sized amorphous alloy samples .

快速冷凝粉末冶金技术制备Al-Li-Cu-Mg-Zr合金的研究

Study of rapid solidification-powder metallurgy processing of an al-li-cu-mg-zr alloy

本研究利用堆层粉末冶金技术制备了Al/Al-4%Cu梯度材料，为了进行对比，采用相同制备工艺制备了纯Al均匀材料、Al-4%Cu均匀材料。

Al / Al-4 % Cu graded material was fabricated by stacking powder metallurgy processing . For comparison , the same processing was used for preparing pure Al homogeneous material and Al-4 % Cu homogeneous alloy .

目前日本的Toyota公司采用粉末冶金技术制备了原位反应生成的TiB颗粒增强钛基复合材料，已在汽车发动机进、排气阀等部件得到应用。

Toyota central research development laboratories Inc , Japan by advanced powder-metallurgy technology creates TiB reinforced titanium matrix composite , which is used as automotive components such as intake and exhaust engine-valves .

采用传统粉末冶金技术制备了铝电解用CuNiFe2O4和NiNiFe2O4金属陶瓷惰性阳极，并对其在Na3AlF6Al2O3熔体中的腐蚀行为进行了研究。

The cermet inert anodes with the compositions of Cu-NiFe_2O_4 and Ni-NiFe_2O_4 were developed by classical powder metallurgical technique respectively . The corrosion behaviors of NiFe_2O_4-based inert anodes in Na_3AlF_6-Al_2O_3 melts were investigated .

在热力学计算纯钛粉与TiB2颗粒生成TiB条件的基础上，采用原位反应粉末冶金技术制备了TiB/Ti复合材料。

On basis of thermodynamics analysis of reaction between pure titanium powder and TiB_2 particle , the in-situ TiB whisker reinforced titanium composite fabricated by the powder metallurgy method was fabricated .

采用粉末冶金技术，在精密合金中加入适量的铜，制成低膨胀高导热合金（DG合金），以替代钼作为器件的支承板。

The paper offers an alloy with low CTE and high thermal conductivity used as the supporting plate of power semiconductor devices instead of Mo disc . The alloy is made with adding proper Cu to precision alloy by powder metallurgy .

粉末冶金技术可以制造原料比重差异大、成分复杂的金属复合材料，通过液相烧结的方法可使TiC相与钢基体牢固结合，并赋予材料良好的力学性能及抗磨损能力。

Powder metallurgy ( PM ) technology can manufacture metal matrix composites with different proportions ' raw powder or complex compositions , and liquid phase sintering technology can strongly combine TiC and steel matrix , therefore , endow the alloy with excellent mechanical and wear resistance properties .

粉末冶金技术在银基触点材料中的应用

Applications of powder metallurgy technology to manufacture of silver-based contact materials

1999年海峡两岸粉末冶金技术研讨会简介

Introduction of 99 ' Powder Metallurgy Technology Seminar Across the Taiwan Straits

白俄罗斯脉冲与粉末冶金技术的最新进展

Recent Progress of Impulse and Powder Metallurgical Techniques of Byelorussia

智能控制在粉末冶金技术中的应用

A review on application of intelligent control in powder metallurgy

粉末冶金技术在电动工具行业中的应用与实施

Applications of Powder Metallurgy Technology in Power Tools Industries

二氧化铀核燃料的粉末冶金技术

P / m technology of uranium dioxide nuclear fuel

采用粉末冶金技术提高工矿机械行业效益

Improved the efficiency of construction and mining machinery manufacturers with powder metallurgy technology

粉末冶金技术是一种既古老而又先进的科学技术。

Powder Metallurgy ( PM ) is an ancient and advanced science and technology .

高性能钛合金粉末冶金技术研究

Powder Metallurgy Technology for High Performance Titanium Alloy

新千年粉末冶金技术的发展

Technical development of powder metallurgy in New Millenium

核废物固化处理中的粉末冶金技术

Powder metallurgy techniques in nuclear waste solidification treatment

采用粉末冶金技术，制备了铜基陶瓷强化摩擦材料。

Ceramic - enhanced Cu - based friction materials were fabricated by powder metallurgy .

采用粉末冶金技术研制了一种新型无银触头材料。

A new type of silver-free contact material was prepared by P / M technology .

铍粉末冶金技术进展

Developments in beryllium p / M technology

粉末冶金技术与节材

Powder Metallurgy Techniques in Materials Saving

粉末冶金技术是制造此类材料常用方法之一。

Powder metallurgy is considered to be one of the most effective technologies to produce such materials .

消除孔隙、改善组织结构，提高材料综合力学性能是粉末冶金技术和塑性变形工艺的重要目标。

Removing inner porosity , refining microstructure and improving its mechanical characters are important aims of powder plastic deformation technology .

介绍了粉末冶金技术及产品在探矿工程中的应用。回顾了硬质合金钻进的历史；

The application of powder metallurgy technology in exploration engineering is summarized First , the cemented carbide drilling history is reviewed ;