Microstructure and the distribution of tensile properties in injection molded polyethylene

Moy, Francis H.

January 1980

No description available.

Injection molding of plastics.

The dynamics of cavity pressure in thermoplastic injection molding /

Conley, Nancy Ann.

January 1985

No description available.

Injection molding of plastics

Thermoplastics

Mold thermal design and quasi steady state cycle time analysis in injection molding

Hioe, Yunior

08 March 2006

No description available.

Engineering, Industrial

Injection Molding

The dynamics of injection hydraulics in thermoplastics injection molding /

Abu Fara, Dib.

January 1983

No description available.

Thermoplastics.

Prediction of shrinkage and warpage in injection moulded components using computational analysis

Riddles, Mornay

January 2003

Thesis (MTech (Mechanical Engineering))--Peninsula Technikon, 2003 / Injection moulding is a process by which molten polymer is forced into an empty cavity of the desired shape. At its melting point, polymers undergo a volumetric expansion when heated, and volumetric contraction when cooled. This volumetric contraction is called shrinkage. Once the mould cavity is filled, more pressure is applied and additional polymer is packed into the cavity and held to compensate for the anticipated shrinkage as the polymer solidifies. The cooling takes place via the cooling channels where the polymer is cooled until a specific ejection criterion is met. Heat from the polymer is lost to the surrounding mould, a part of this heat reaches the cooling channel surfaces, which in turn exchange heat with the circulating cooling fluid. Due to the complexity of injection moulded parts and the cooling channel layout, it is difficult to achieve balanced cooling of parts. Asymmetric mould temperature distribution causes contractions of• the polymer as it cools from its melting temperature to room temperature. This results in residual stresses, which causes the part to warp after ejection. Given the understanding of the mathematical model describing the heat transfer process during the cooling stage, the objectives of this study were three fold. Firstly, an alternative numerical model for the heat transfer process was developed. The proposed model was used to investigate the cooling stress build-up during the injection moulding process.

Injection molding of plastics

A study on material distribution, mechanical properties, and numerical simulation in co-injection molding

Srithep, Yottha

18 March 2008

No description available.

injection molding

co-injection molding

polymer processing

Moldflow

The dynamics of injection hydraulics in thermoplastics injection molding /

Abu Fara, Dib

January 1983

No description available.

Thermoplastics.

Experimental study of anisotropy in injection molded thermoplastic parts

Bakerdjian, Zaven

January 1978

No description available.

Injection molding of plastics.

Anisotropy.

Thermoplastics.

The dynamics of thermoset injection molding and the anistropies of molded parts /

Sidi, Shiraz Ismail.

January 1980

No description available.

Thermosetting plastics.

Injection molding of plastics.

Synthesis and characterization of divinyl monomers for styrene-based reaction injection molding

Sanchez, John Lawrence

28 August 2008

Not available / text

Monomers

Injection molding of plastics

Styrene