Thermal-Mechanical Coupled Numerical Simulation of Heat Pulp Mould

De Zhi Yang; Zhao Yao Zhou; Wen Jiong Cao; Yi He

doi:10.4028/www.scientific.net/AMR.421.9

Paper Titles

Preface and Organizing Committee

Development and Application of Off-Line Simulation Software for Hot Strip Continuous Rolling
p.3

Thermal-Mechanical Coupled Numerical Simulation of Heat Pulp Mould
p.9

Finite Element Simulation and Numerical Analysis in the Process of Tube Bending
p.14

Study on the Stability of Fruit Bromelain
p.19

Preparation and Ammonia Sensing Properties of PANI-TSA/PA6 Core-Shell Nanofibers by Electrospinning
p.23

Effect of Microwave Drying on Cure Characteristics of Natural Rubber
p.27

Piezoelectrics-Based Integrated Optical Waveguide for Mach-Zehnder Interferometer as the Modulator in Microwave Photonic Link
p.31

The Synthesis of Comb-Like Polymeric Prodrugs of 5-Fluorouracil Derivatives
p.35

HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 421Thermal-Mechanical Coupled Numerical Simulation of...

Thermal-Mechanical Coupled Numerical Simulation of Heat Pulp Mould

Abstract:

3D thermal-mechanical coupled numerical simulation of heat pulp mould was carried out. The numerical simulation result shows the rising up process of mould temperature. Temperature distribution contours shows the temperature status on the mould. Temperature distribution results provide reliable guarantee to change the mould structure, so that the temperature distribution on surface becomes uniform. Displacement contours show the mould deformation under the coupled effect of hot temperature and mechanical pressure. The displacement value of nodes can offer reference size to scale mould at the design stage. As a result, high accuracy mould will be manufactured, and this will improve the passing rare of product.