稀有金属材料与工程
稀有金屬材料與工程
희유금속재료여공정
RARE METAL MATERIALS AND ENGINEERNG
2009年
z2期
431-435
,共5页
冯立超%甄良%邵文柱%谢宁
馮立超%甄良%邵文柱%謝寧
풍립초%견량%소문주%사저
Cu_2O-Cu复合材料%原位还原%微观组织%抗压强度
Cu_2O-Cu複閤材料%原位還原%微觀組織%抗壓彊度
Cu_2O-Cu복합재료%원위환원%미관조직%항압강도
Cu-Cu_2O composites%in-situ reduction%microstructure%compressive strength
以Cu_2O和炭黑粉末为原料,采用原位还原-无压(热压)烧结工艺制备Cu_2O-Cu复合材料.利用XRD和OM对烧结试样进行研究,并测试其力学性能.研究表明,复合材料由Cu和Cu_2O两相组成,原位还原-无压烧结法的合理烧结时间为5 h,其力学性能高于传统粉末冶金法制备复合材料力学性能,抗压强度464 MPa.原位还原-热压烧结法可以改善试样致密性及细化微观组织,进一步提高力学性能,抗压强度达到702 MPa.
以Cu_2O和炭黑粉末為原料,採用原位還原-無壓(熱壓)燒結工藝製備Cu_2O-Cu複閤材料.利用XRD和OM對燒結試樣進行研究,併測試其力學性能.研究錶明,複閤材料由Cu和Cu_2O兩相組成,原位還原-無壓燒結法的閤理燒結時間為5 h,其力學性能高于傳統粉末冶金法製備複閤材料力學性能,抗壓彊度464 MPa.原位還原-熱壓燒結法可以改善試樣緻密性及細化微觀組織,進一步提高力學性能,抗壓彊度達到702 MPa.
이Cu_2O화탄흑분말위원료,채용원위환원-무압(열압)소결공예제비Cu_2O-Cu복합재료.이용XRD화OM대소결시양진행연구,병측시기역학성능.연구표명,복합재료유Cu화Cu_2O량상조성,원위환원-무압소결법적합리소결시간위5 h,기역학성능고우전통분말야금법제비복합재료역학성능,항압강도464 MPa.원위환원-열압소결법가이개선시양치밀성급세화미관조직,진일보제고역학성능,항압강도체도702 MPa.
Cu-Cu_2O composites were prepared from C and Cu_2O powders, called as in-situ reduction-pressure less sintering (IRPS) method and in-situ reduction-hot pressing (IRHP) method. Samples were characterized by X-ray diffraction and optical microscope. XRD analysis shows that the samples only consist of Cu_2O and Cu phases. The microstructure analysis shows that the optimum sintering time for the IRPS method is 5 h at 1050 ℃, and the IRHP method leads to lower porosity and smaller Cu_2O matrix crystal sizes. The compressive strength of the sample prepared by IRPS method is higher than thoseprepared by conventional powder metallurgic method (PMM). The compressive strength of the sample prepared by IRHP method is higher than those prepared by IRPS method.
