Research on the Performance of Silt Sintered Insulating Brick and Key Molding Equipment

Hong Mei Liu; Yuan Bin Xu; Cheng Qun Wu; Ai Dong Zhu; Jun Qiu Zuo

doi:10.4028/www.scientific.net/AMR.919-921.2002

Paper Titles

Experimental Study on Dynamic Mechanical Properties of HPP Hybrid Fibers Reinforced Lightweight Aggregate Concrete
p.1983

Mix Proportion and Mechanical Properties of Recycled PET-Brick Powder Mixture
p.1990

Preparation and Performance of Diatomite Latex Paint for Interior Wall
p.1994

Recent Research of Shape Memory Alloy in Seismic Resistance
p.1998

Research on the Performance of Silt Sintered Insulating Brick and Key Molding Equipment
p.2002

Limestone and Dolomite Tailings Properties and Bricks Development
p.2007

A New POM-Based Supramolecular Compound: Synthesis, Structure and Adsorptive Property of [Cu(phen)₂]₃[W₆O₁₉]
p.2013

Adsorption Mechanism of Rectorite Modified by Lithium
p.2017

Antioxidant Activity and Chemical Constituents of Microalgae Oil of Schizochytrium aggregatum
p.2022

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 919-921Research on the Performance of Silt Sintered...

Research on the Performance of Silt Sintered Insulating Brick and Key Molding Equipment

Abstract:

Silt sintered insulating brick with high strength, good thermal insulation and sound insulation characteristics. It occupies an important position in the new building materials industry. The main equipment for production of silt sintered insulating brick is the vacuum brick extruding machine, the forming mold is the most critical part in it. The performance largely determines the quality of the brick. The structural design and other aspects of the forming mold are analyzed, and then systematically summarize the design and production requirements of the forming mold. The research status of the forming mold on vacuum brick extruding machine at domestic and abroad is reviewed. The main problems of forming mold are analyzed and the corresponding solutions are given, as well as the future developments of forming mold.

You might also be interested in these eBooks

View Preview

Info:

Periodical:

Advanced Materials Research (Volumes 919-921)

Pages:

2002-2006

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.919-921.2002

Citation:

Cite this paper

Online since:

April 2014

Authors:

Hong Mei Liu, Yuan Bin Xu, Cheng Qun Wu, Ai Dong Zhu, Jun Qiu Zuo

Keywords:

Comprehensive Benefit, Forming Mold, Silt Sintered Insulating Brick, Structural Design

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] A.Q. Meng, X.J. Ma, Several main problems in design of hollow brick molding. Brick and Tile, 4 (2006), pp.45-47.

Google Scholar

[2] Y. Jiang, Building energy efficiency and lifestyle. Journal of Architecture, 12(2007), pp.11-15.

Google Scholar

[3] W.L. Chen, Research on the materials preparation process and the structure improvement of hollow brick core. Wuhan university of technology, (2010).

Google Scholar

[4] J.J. del Coz Diaz. Non-linear thermal analysis of light concrete hollow brick walls by the finite element method and experimental validation. Applied Thermal Engineering. 26(2006), pp.777-786.

DOI: 10.1016/j.applthermaleng.2005.10.012

Google Scholar

[5] D. Chui, J.Q. Guo, Y.H. Wang, The design of the extrusion machine head and machine mouth. Brick and Tile, 10(2009).

Google Scholar

[6] S.C. Wang, H. Gao and L. Gao, China. Patent 200720024559. 3. (2007).

Google Scholar

[7] C.S. Zhao, The application and development of mold heat treatment and surface strengthening technology. Mould Manufacturing, 6(2006), pp.68-72.

Google Scholar

[8] G. Castro, A. Fernandez-vicente, J. Cid, Influence of the nitriding time in the wear behavior of an AISI H13 steel during a crankshaft forging process. Wear, 7-12(2007), pp.1375-1385.

DOI: 10.1016/j.wear.2007.02.007

Google Scholar

[9] J.X. Yu, L. Hua, C.Y. Han, The application of die surface strengthening technology and die life. Mold design and Manufacturing, 1(2004), pp.62-66.

Google Scholar

[10] P.L. Zhao, China. Patent 201110076810. 1. (2011).

Google Scholar

[11] J.G. Ling, China. Patent 95207869. 4. (1995).

Google Scholar

[12] X.H. Chen, The research progress on the molding of WPC. Application of Chemical, 6(2011).

Google Scholar

[13] G. F Lin, China Patent 2013320102224. 4. (2013).

Google Scholar

[14] C.J. Liu, The design and manufacture of a new type of machine mouth. Machinery and Equipment, 3(2011), p.51.

Google Scholar