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Fabrication of amorphous metal matri...
~
Mathaudhu, Suveen Nigel.
Fabrication of amorphous metal matrix composites by severe plastic deformation.
紀錄類型:
書目-電子資源 : 單行本
正題名/作者:
Fabrication of amorphous metal matrix composites by severe plastic deformation./
作者:
Mathaudhu, Suveen Nigel.
面頁冊數:
154 p.
附註:
Source: Dissertation Abstracts International, Volume: 67-08, Section: B, page: 4668.
Contained By:
Dissertation Abstracts International67-08B.
標題:
Engineering, Mechanical. -
電子資源:
Download PDF (下載PDF全文)
ISBN:
9780542841101
Fabrication of amorphous metal matrix composites by severe plastic deformation.
Mathaudhu, Suveen Nigel.
Fabrication of amorphous metal matrix composites by severe plastic deformation.
- 154 p.
Source: Dissertation Abstracts International, Volume: 67-08, Section: B, page: 4668.
Thesis (Ph.D.)--Texas A&M University, 2006.
Bulk metallic glasses (BMGs) have displayed impressive mechanical properties, but the use and dimensions of material have been limited due to critical cooling rate requirements and low ductility. The application of severe plastic deformation by equal channel angular extrusion (ECAE) for consolidation of bulk amorphous metals (BAM) and amorphous metal matrix composites (AMMC) is investigated in this dissertation. The objectives of this research are (a) to better understand processing parameters which promote bonding between particles and (b) to determine by what mechanisms the plasticity is enhanced in bulk amorphous metal matrix composites consolidated by ECAE. To accomplish the objectives BAM and AMMCs were produced via ECAE consolidation of Vitreloy 106a (Zr58.5Nb2.8Cu15.6Ni12.8Al 10.3-wt%), ARLloy #1 (Hf71.3Cu16.2Ni7.6Ti 2.2Al2.6-wt%), and both of these amorphous alloys blended with crystalline phases of W, Cu and Ni. Novel instrumented extrusions and a host of post-processing material characterizations were used to evaluate processing conditions and material properties. The results show that ECAE consolidation at temperatures within the supercooled liquid region gives near fully dense (>99%) and well bonded millimeter scale BAM and AMMCs. The mechanical properties of the ECAE processed BMG are comparable to cast material: sigma f = 1640 MPa, &egr;f = 2.3%, E = 80 GPa for consolidated Vitreloy 106a as compared to sigmaf = 1800 MPa, &egr;f = 2.5%, E = 85 GPa for cast Vitreloy 106, and sigmaf = 1660 MPa, &egr; f = 2.0%, E = 97 GPa for ARLloy #1 as compared to sigma f = 2150 MPa, &egr;f < 2.5%, E = 102 GPa for Hf52 Cu17.9Ni14.6Ti5A10. The mechanical properties of AMMCs are substandard compared to those obtained from melt-infiltrated composites due to non-ideal particle bonding conditions such as surface oxides and crystalline phase morphology and chemistry. It is demonstrated that the addition of a dispersed crystalline phase to an amorphous matrix by ECAE powder consolidation increases the plasticity of the amorphous matrix by providing locations for generation and/or arrest of adiabatic shear bands. The ability of ECAE to consolidated BAM and AMMCs with improved plasticity opens the possibility of overcoming the size and plasticity limitations of the monolithic bulk metallic glasses.
ISBN: 9780542841101Subjects--Topical Terms:
170925
Engineering, Mechanical.
Fabrication of amorphous metal matrix composites by severe plastic deformation.
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Bulk metallic glasses (BMGs) have displayed impressive mechanical properties, but the use and dimensions of material have been limited due to critical cooling rate requirements and low ductility. The application of severe plastic deformation by equal channel angular extrusion (ECAE) for consolidation of bulk amorphous metals (BAM) and amorphous metal matrix composites (AMMC) is investigated in this dissertation. The objectives of this research are (a) to better understand processing parameters which promote bonding between particles and (b) to determine by what mechanisms the plasticity is enhanced in bulk amorphous metal matrix composites consolidated by ECAE. To accomplish the objectives BAM and AMMCs were produced via ECAE consolidation of Vitreloy 106a (Zr58.5Nb2.8Cu15.6Ni12.8Al 10.3-wt%), ARLloy #1 (Hf71.3Cu16.2Ni7.6Ti 2.2Al2.6-wt%), and both of these amorphous alloys blended with crystalline phases of W, Cu and Ni. Novel instrumented extrusions and a host of post-processing material characterizations were used to evaluate processing conditions and material properties. The results show that ECAE consolidation at temperatures within the supercooled liquid region gives near fully dense (>99%) and well bonded millimeter scale BAM and AMMCs. The mechanical properties of the ECAE processed BMG are comparable to cast material: sigma f = 1640 MPa, &egr;f = 2.3%, E = 80 GPa for consolidated Vitreloy 106a as compared to sigmaf = 1800 MPa, &egr;f = 2.5%, E = 85 GPa for cast Vitreloy 106, and sigmaf = 1660 MPa, &egr; f = 2.0%, E = 97 GPa for ARLloy #1 as compared to sigma f = 2150 MPa, &egr;f < 2.5%, E = 102 GPa for Hf52 Cu17.9Ni14.6Ti5A10. The mechanical properties of AMMCs are substandard compared to those obtained from melt-infiltrated composites due to non-ideal particle bonding conditions such as surface oxides and crystalline phase morphology and chemistry. It is demonstrated that the addition of a dispersed crystalline phase to an amorphous matrix by ECAE powder consolidation increases the plasticity of the amorphous matrix by providing locations for generation and/or arrest of adiabatic shear bands. The ability of ECAE to consolidated BAM and AMMCs with improved plasticity opens the possibility of overcoming the size and plasticity limitations of the monolithic bulk metallic glasses.
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