通过共沉淀法制备不同Fe-Cu配比的FeCoCu预合金粉,并对其微观结构进行表征与分析。同时,对3种粉体进行不同温度下的烧结实验和对烧结试样块进行力学性能及磨损质量损失进行测试,并对预合金粉与金刚石的界面结合情况进行探讨。结果表明:预合金粉中形成了Co3Fe7、CoFe15.7、FeCu4等中间相,在一定程度上实现合金化。3种预合金粉末的形状均为不规则状,粉末颗粒较细,且相互连接,表面疏松,有利于烧结。3种预合金粉中单质相仍占有较大比例,单质配比对烧结体性能有重要影响。Fe含量增加时,试样的理想烧结温度及烧结体力学性能均升高。Fe-Cu配比会对微观结构产生重要影响,胎体对金刚石以机械包镶为主,结合XRD及Raman光谱可知,与预合金粉烧结后的金刚石表面发生石墨化。
The FeCoCu pre-alloyed powders were manufactured by co-precipitation method. The microstructure was characterized, the sintering experiments were carried out, the mechanical properties and wear loss were tested and the combination condition between diamond and the powders was analyzed. The results show that the mesophases, such as Co3Fe7, CoFe15.7 and FeCu4, are formulated in the three powders, and all the powders have irregular shapes, interconnected fine particles and large surface areas. Although the solid solutions are formed, the sintering, mechanical properties and mass loss of the three powders are based on the Fe-Cu ratios. With Fe content increasing, the ideal sintering temperatures, hardness and three point bend strength raise. The relative density decreases, the wear loss becomes better. Fe-Cu ratio has important influence on the powders microstructure. The mechanical retention is the main strength in the matrix and graphitization has occurred in the diamond surface after sintering with the FeCoCu pre-alloyed powders.
参考文献
[1] | 杨展.预合金粉胎体钻头性能的研究[J].青岛科技大学学报(自然科学版),2013(01):71-75. |
[2] | Ping Han;Fu-ren Xiao;Wen-jun Zou;Bo Liao.Influence of hot pressing temperature on the microstructure and mechanical properties of 75% Cu-25% Sn alloy[J].Materials & design,2014Jan.(Jan.):38-42. |
[3] | LI Wensheng;ZHANG Jie;WANG Shucai;DONG Hongfeng;LI Yaming;LIU Yi.Characterizations and mechanical properties of impregnated diamond segment using Cu-Fe-Co metal matrix[J].稀有金属(英文版),2012(01):81-87. |
[4] | K. An.Pressure assisted master sintering surface of Co, Cu and Fe powder mixture[J].Powder Technology: An International Journal on the Science and Technology of Wet and Dry Particulate Systems,2013:117-122. |
[5] | 杨理清;张延军;罗文来.元素Cu对Co基配方的性能影响[J].超硬材料工程,2012(4):9-13. |
[6] | 黄艳华;贺跃辉;谢志刚;向波.金刚石工具用Ni-Co合金粉末的制备及表征[J].超硬材料工程,2006(5):1-5. |
[7] | 肖长江;赵延军;尚秋元.烧结工艺对铁基结合剂金刚石节块力学性能的影响[J].硅酸盐通报,2011(5):1068-1071. |
[8] | 韩娟;姚炯彬;葛启录;刘一波.碳含量对高铁基胎体金刚石工具性能的影响[J].粉末冶金材料科学与工程,2011(4):625-629. |
[9] | 淦作腾;任淑彬;沈晓宇;何新波;曲选辉;郭佳.放电等离子烧结法制备金刚石/Cu复合材料[J].粉末冶金材料科学与工程,2010(1):59-63. |
[10] | Structure, microstructure and mechanical properties of PM Fe-Cu-Co alloys[J].Materials & design,20101(1):522-526. |
[11] | 谢志刚;秦海青;刘心宇;王进保;蒋剑峰.金刚石制品用FeCoCu预合金粉末的制备及应用研究[J].材料工程,2011(3):1-5,64. |
[12] | 刘兵;彭超群;王日初;王小锋;李婷婷;王志勇.烧结助剂Y2O3和Pr6O11对Al2O3陶瓷相对密度和热导率的影响[J].中国有色金属学报,2012(8):2302-2310. |
[13] | 孙贵磊;李晓杰;闫鸿浩.爆轰裂解可膨胀石墨制备石墨微粉[J].新型炭材料,2007(3):242-246. |
[14] | 王永祯;王艳;韩非;蔡晓岚.还原热处理对石墨烯薄膜导电性的影响[J].新型炭材料,2012(4):266-270. |
[15] | Graf D;Molitor F;Ensslin K;Stampfer C;Jungen A;Hierold C;Wirtz L.Spatially resolved raman spectroscopy of single- and few-layer graphene[J].Nano letters,20072(2):238-242. |
[16] | 肖海河;刘洪波;何月德;简志敏;匡加才.沥青炭包覆微晶石墨用作锂离子电池负极材料的研究[J].功能材料,2013(19):2759-2763. |
[17] | 戴秋莲;徐西鹏;王永初.金属结合剂对金刚石把持力的增强措施及增强机制评述[J].材料科学与工程,2002(3):465-468. |
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