Add to ORKGAluminum foams were fabricated by sintering dissolution process (SDP) using sodium chloride (NaCl) as space holder. The compositions of space holder, used in this study were 40 and 60 wt. % with different dissolution times1, 2 and 3 h. The effect of different dissolution times on compressive behavior and energy absorption of foams were evaluated. The result showed that by increasing space holder and dissolution times, energy absorption capability increases. For aluminum foam contains 60 wt. % NaCl, longer dissolution times resulted in thinner cell wall and cell structure become more unstable which lead to lower plateau region
Light structures and parts are very effective for new engineering applications. Their considerably l...
This paper presents experimental results of compressive behavior of aluminium alloy metal foams with...
The effect of porosity and pore size on the quasi-static compression properties and energy absorptio...
Sintering dissolution process (SDP) is a technique which enables fabrication of aluminum foam as a ...
Aluminum foam was fabricated by space-holder method with carbamide particles as space-holder materia...
In the present work, effect of structural design on the mechanical properties of aluminum foams was ...
Proses pensinteran pelarutan (SDP) merupakan proses yang dapat menghasilkan busa aluminum sebagai ba...
This work reports the processing of aluminum (Al) foams with pore size in the range from 1 to 2 mm a...
This paper discusses the improvement made by pressure assisted sintering dissolution process (PASDP)...
Al foams have found increasing applications in a wide range of structural and functional products, d...
The effects of the compaction and liquid-state sintering conditions on the structure of the resultan...
As a new type of structurally functional material, aluminum foam is widely used in civil engineering...
Light structures and parts are very effective for new engineering applications. Their considerably l...
Porous aluminum foams were successfully fabricated following the space-holder powder metallurgy meth...
Aluminium foams are composite materials made of aluminium or, frequently, of aluminium alloys. They ...
Light structures and parts are very effective for new engineering applications. Their considerably l...
This paper presents experimental results of compressive behavior of aluminium alloy metal foams with...
The effect of porosity and pore size on the quasi-static compression properties and energy absorptio...
Sintering dissolution process (SDP) is a technique which enables fabrication of aluminum foam as a ...
Aluminum foam was fabricated by space-holder method with carbamide particles as space-holder materia...
In the present work, effect of structural design on the mechanical properties of aluminum foams was ...
Proses pensinteran pelarutan (SDP) merupakan proses yang dapat menghasilkan busa aluminum sebagai ba...
This work reports the processing of aluminum (Al) foams with pore size in the range from 1 to 2 mm a...
This paper discusses the improvement made by pressure assisted sintering dissolution process (PASDP)...
Al foams have found increasing applications in a wide range of structural and functional products, d...
The effects of the compaction and liquid-state sintering conditions on the structure of the resultan...
As a new type of structurally functional material, aluminum foam is widely used in civil engineering...
Light structures and parts are very effective for new engineering applications. Their considerably l...
Porous aluminum foams were successfully fabricated following the space-holder powder metallurgy meth...
Aluminium foams are composite materials made of aluminium or, frequently, of aluminium alloys. They ...
Light structures and parts are very effective for new engineering applications. Their considerably l...
This paper presents experimental results of compressive behavior of aluminium alloy metal foams with...
The effect of porosity and pore size on the quasi-static compression properties and energy absorptio...