[go: up one dir, main page]
More Web Proxy on the site http://driver.im/

Rohatgi et al., 2006 - Google Patents

Compressive characteristics of A356/fly ash cenosphere composites synthesized by pressure infiltration technique

Rohatgi et al., 2006

View HTML
Document ID
3403282517718520125
Author
Rohatgi P
Kim J
Gupta N
Alaraj S
Daoud A
Publication year
Publication venue
Composites Part A: applied science and manufacturing

External Links

Snippet

Loose beds of hollow fly ash particles (cenospheres) were pressure infiltrated with A356 alloy melt to fabricate metal-matrix syntactic foam, using applied pressure up to 275kPa. The volume fractions of cenospheres in the composites were in the range of 20–65%. The …
Continue reading at www.sciencedirect.com (HTML) (other versions)

Classifications

    • CCHEMISTRY; METALLURGY
    • C22METALLURGY; FERROUS OR NON-FERROUS ALLOYS; TREATMENT OF ALLOYS OR NON-FERROUS METALS
    • C22CALLOYS
    • C22C1/00Making alloys
    • C22C1/10Alloys containing non-metals
    • C22C1/1036Alloys containing non-metals starting from a melt

Similar Documents

Publication Publication Date Title
Rohatgi et al. Compressive characteristics of A356/fly ash cenosphere composites synthesized by pressure infiltration technique
Movahedi et al. The temperature effect on the compressive behavior of closed-cell aluminum-alloy foams
Orbulov et al. Compressive characteristics of metal matrix syntactic foams
Tao et al. Al matrix syntactic foam fabricated with bimodal ceramic microspheres
Santa Maria et al. Effect of hollow sphere size and size distribution on the quasi-static and high strain rate compressive properties of Al-A380–Al 2 O 3 syntactic foams
Daoud Synthesis and characterization of novel ZnAl22 syntactic foam composites via casting
Daoud et al. Fabrication, microstructure and compressive behavior of ZC63 Mg–microballoon foam composites
Goel et al. Effect of strain rate and relative density on compressive deformation behavior of aluminum cenosphere syntactic foam
Pan et al. Zn-matrix syntactic foams: Effect of heat treatment on microstructure and compressive properties
Rajak et al. Characterization and analysis of compression load behaviour of aluminium alloy foam under the diverse strain rate
Myers et al. Quasi-static and high strain rate response of aluminum matrix syntactic foams under compression
Kenny Mechanical properties of particle stabilized aluminum foam
Lin et al. Mechanical behavior of pure Al and Al–Mg syntactic foam composites containing glass cenospheres
Xia et al. Fabrication and characterization of closed-cell magnesium-based composite foams
Linul et al. Crashworthiness performance of lightweight Composite Metallic Foams at high temperatures
Lin et al. Microstructure and strength correlation of pure Al and Al-Mg syntactic foam composites subject to uniaxial compression
Daoud Effect of strain rate on compressive properties of novel Zn12Al based composite foams containing hybrid pores
Hajizadeh et al. An experimental investigation into the quasi-static compression behavior of open-cell aluminum foams focusing on controlling the space holder particle size
Daoud Effect of fly ash addition on the structure and compressive properties of 4032–fly ash particle composite foams
Mahmutyazicioglu et al. Effects of alumina (Al2O3) addition on the cell structure and mechanical properties of 6061 foams
Manakari et al. Effects of hollow fly-ash particles on the properties of magnesium matrix syntactic foams: A review
Scherm et al. Mechanical characterisation of interpenetrating network metal–ceramic composites
Yang et al. Innovative compound casting technology and mechanical properties of steel matrix syntactic foams
LI et al. Preparation and characterization of SiCp/2024Al composite foams by powder metallurgy
Orbulov et al. Low-cost light-weight composite metal foams for transportation applications