Fabrication of functionally graded W(Mo)–Cu composites by explosive consolidation

“…The fabricated FGCM tube was free from defects and was 100% dense (Figure 41a). Novel explosive consolidation techniques were used in [239,240] for fabricating high-quality FGCMs. Yang et al [240] employed the water-borne shock wave method and self-propagating exothermic reactions to consolidate W(Mo)-Cu FGCMs.…”

“…Novel explosive consolidation techniques were used in [239,240] for fabricating high-quality FGCMs. Yang et al [240] employed the water-borne shock wave method and self-propagating exothermic reactions to consolidate W(Mo)-Cu FGCMs. The fabricated FGCMs had smooth surfaces and fewer defects.…”

“…In terms of constituent materials, FGCMs can be classified into metal-metal (e.g. W-Fe [17], W-Cu [18,19], W-Mo [20], etc. ), metal-ceramic (e.g.…”

Review on developments of bulk functionally graded composite materials

“…The fabricated FGCM tube was free from defects and was 100% dense (Figure 41a). Novel explosive consolidation techniques were used in [239,240] for fabricating high-quality FGCMs. Yang et al [240] employed the water-borne shock wave method and self-propagating exothermic reactions to consolidate W(Mo)-Cu FGCMs.…”

“…Novel explosive consolidation techniques were used in [239,240] for fabricating high-quality FGCMs. Yang et al [240] employed the water-borne shock wave method and self-propagating exothermic reactions to consolidate W(Mo)-Cu FGCMs. The fabricated FGCMs had smooth surfaces and fewer defects.…”

“…In terms of constituent materials, FGCMs can be classified into metal-metal (e.g. W-Fe [17], W-Cu [18,19], W-Mo [20], etc. ), metal-ceramic (e.g.…”

Review on developments of bulk functionally graded composite materials