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真空绝热板 绿色材料 健康生活 第十二届国际真空绝热材料会议论文集 英文版 陈照峰 主编 2015年版
- 名 称:真空绝热板 绿色材料 健康生活 第十二届国际真空绝热材料会议论文集 英文版 陈照峰 主编 2015年版 - 下载地址2
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真空绝热板 绿色材料 健康生活 第十二届国际真空绝热材料会议论文集 英文版
作者:陈照峰 主编
出版时间:2015年版
内容简介
《真空绝热板:绿色材料 健康生活 第十二届国际真空绝热材料会议论文集(英文版)》共收录国内外论文80余篇,涵盖芯材、膜材、吸气剂等8个主题,是历届大会论文多的一届。当前我国真空绝热板的应用还处于初级阶段,在绝大多数潜在应用领域缺乏标准和示范,本次大会有助于提高我国相关行业和行政管理部门对真空绝热板及其节能效率的认识,增加我国真空绝热板产品的知名度,进一步提升我国真空绝热板的应用水平。
目录
Influence of A1 Foil Layers on Thermal Conductivity and Flexural Strength of Glass Fiber Core VlPs
Effect of the Number of Core Material Layers on the Interior Pressure and Thermal Conductivity of Glass Fiber Vacuum Insulation Panel
Research on the Biological Solubility of Ultra-fine Glass Fibers
Research on Dry Process for Making Glass Fiber Core Material of Vacuum Insulation Panel
New Organic Fiber-Based Core Material for Vacuum Thermal Insulation
The Thermal Conductivity of Basalt Fiber at High Temperature
Effect of Sepiolite Powders on the Thermal Conductivity of VIP Using Glass Wool as Core Materials
Pillar-supported Core Structure for Vacuum Insulation Panel
The Effect of Rice Husk Ash on the Performance of VIP Core Materials
Fiber Reinforced Hollow Silica Nanospheres for Thermal Insulation Applications
The Influence of Different Cross-sectional Structure of Glass Fiber Felt on Its Thermal Conductivity and Heat Transfer Mechanism Effective of Density and Thickness of Ultra-fine Glass Wool Felt on Thermal Conductivity Under High Temperature
Effect of Large Pores in Silica Aerogels on the Gaseous Thermal Conductivity of Vacuum Insulation Panels
3D MET Characterization of Precipitated and Fumed Silicas. Focus on Statistical Size Distributions
Low Thermal Conductivity of High-Silica Glass Fiber Felt by Nano-modification
Effect of the Additive Amount of Nano Carbon Black on Thermal Insulating Performance of Vacuum Insulation Panel
The Effect of Novel Drying Technology on the Production and Thermal Conductivity of Fume Silica Vacuum Insulation Panel
Effect of Sunscreen Additive on the Thermal Insulation Performance of Vacuum Insulation Panel
Ultrafine Fiberglass Core Material for Vacuum Insulation Panels Produced by Centrifugal-spinneret-blow Process
Mechanical Structures for Vacuum Insulation Panel (VIP) Cores
Investigation of Non-evaporable Barium Matrix Composite Getter for VIPs
……
作者:陈照峰 主编
出版时间:2015年版
内容简介
《真空绝热板:绿色材料 健康生活 第十二届国际真空绝热材料会议论文集(英文版)》共收录国内外论文80余篇,涵盖芯材、膜材、吸气剂等8个主题,是历届大会论文多的一届。当前我国真空绝热板的应用还处于初级阶段,在绝大多数潜在应用领域缺乏标准和示范,本次大会有助于提高我国相关行业和行政管理部门对真空绝热板及其节能效率的认识,增加我国真空绝热板产品的知名度,进一步提升我国真空绝热板的应用水平。
目录
Influence of A1 Foil Layers on Thermal Conductivity and Flexural Strength of Glass Fiber Core VlPs
Effect of the Number of Core Material Layers on the Interior Pressure and Thermal Conductivity of Glass Fiber Vacuum Insulation Panel
Research on the Biological Solubility of Ultra-fine Glass Fibers
Research on Dry Process for Making Glass Fiber Core Material of Vacuum Insulation Panel
New Organic Fiber-Based Core Material for Vacuum Thermal Insulation
The Thermal Conductivity of Basalt Fiber at High Temperature
Effect of Sepiolite Powders on the Thermal Conductivity of VIP Using Glass Wool as Core Materials
Pillar-supported Core Structure for Vacuum Insulation Panel
The Effect of Rice Husk Ash on the Performance of VIP Core Materials
Fiber Reinforced Hollow Silica Nanospheres for Thermal Insulation Applications
The Influence of Different Cross-sectional Structure of Glass Fiber Felt on Its Thermal Conductivity and Heat Transfer Mechanism Effective of Density and Thickness of Ultra-fine Glass Wool Felt on Thermal Conductivity Under High Temperature
Effect of Large Pores in Silica Aerogels on the Gaseous Thermal Conductivity of Vacuum Insulation Panels
3D MET Characterization of Precipitated and Fumed Silicas. Focus on Statistical Size Distributions
Low Thermal Conductivity of High-Silica Glass Fiber Felt by Nano-modification
Effect of the Additive Amount of Nano Carbon Black on Thermal Insulating Performance of Vacuum Insulation Panel
The Effect of Novel Drying Technology on the Production and Thermal Conductivity of Fume Silica Vacuum Insulation Panel
Effect of Sunscreen Additive on the Thermal Insulation Performance of Vacuum Insulation Panel
Ultrafine Fiberglass Core Material for Vacuum Insulation Panels Produced by Centrifugal-spinneret-blow Process
Mechanical Structures for Vacuum Insulation Panel (VIP) Cores
Investigation of Non-evaporable Barium Matrix Composite Getter for VIPs
……