yalıtım literatür Dünya Yayınlarından Seçtiklerimiz Thermal and Moisture 2.1. Weather and Climate 4.2.5. Kinetic Energy (momentum) Protection Manual: 2.2. Wind and Air Movement 4.2.6. Air Pressure For Architects, Engineers and 2.3. Precipitation 4.2.7. Hydrostatic Pressure Contractors 2.3.1. Rain 4.3. Preventing Water Problems 2.3.2. Dew 4.3.1. Limit Water Penetration Christina Bea/1 2.3.3. Snow 4.3.2. Prevent Water Accumulation Kitap: 380 sayfa 2.4. Microclimate 4.3.3. Neutralize Forces Baskı: Ağustos 1998 2.4.1. Orientation 4.4. Barriers, Drains, and Rain Fiyatı: 64.95 $ 2.4.2. Slope Screens 2.4.3. Wind 4.4.1. Barrier Systems Binalardaki nem kontrolünün 2.5. Evaluating Risk 4.4.2. Drainage Systems performansının tasarlanması ve 4.4.3. Rain Screen Systems ölçülmesi için gerekli prensipleri ve Chapter 3 Heat Flow and lnsulation 4.4.4. Combining Protective yöntemleri içeren kitap, özel olarak 3.1. Heat and Cold Strategies mühendisler ve mimarlar için 3.1.1. Thermal Conduction and hazırlanmış. Convection Chapter 5 Vapor Condensation Yağmurun, karın ve buharın doğası, 3.1.2. Evoporation 5.1. Psychrometrics mevsim değişiklikleri ve bu 3.1.3. Thermal Radiation 5.2. Condensation in Buildings değişikliklerin yapı malzemesi 3.2. Thermal Resistance 5.2.1. Humidity, comfort, and healt üzerindeki etkileri detaylı olarak 3.2.1. Effect of Air Spaces 5.2.2. Sources of moisture incelenmiş. Bununla beraber çatılar, 3.2.2. Effect of Mass 5.2.3. Surface Condensation su yalıtımı, giydirme ve kaplama ile 3.2.3. Effect of lnsulation 5.2.4. Concealed Condensation ilgili ayrıntılı bilgi bu çalışmada 3.2.4. Effect of Thermal Bridges 5.3. Vapor Movement bulunabilir. 3.3. Types of lnsulation 5.3.1. Diffusion 3.3.1. Loose-fill lnsulation 5.3.2. Air Flow İÇİNDE NE VAR? 3.3.2. Flexible and semirigid 5.3.3. Radiant Solar Heating Chapter 1 Bulidings and Moisture lnsulation 5.4. Vapor Resistance 1.1. Building Science 3.3.3. Rigid lnsulation 5.4.1. Calculating the Thermal 1.2. Thermal and Moisture 3.3.4. Formed-ln-Place lnsulation Gradient Protection 3.3.5. lnsulation Requirements 5.4.2. Calculating the Vapor Pressure 1.3. Durability of Materials 3.3.6. Loos of Thermal Resistance Gradient 1.3.1. Expansion and Contraction 3.4. Calculating Thermal Gradients 5.5. Analyzing the Risk 1.3.2. Mold an Mildew 3.4.1. Calculating Surface 5.5.1. Moisture Accumulation 1.3.3 Corrosion Temperatures 5.5.2. Wentting and Drying Cycles 1.3.4. Decay 3.4.2. Calculating the Effect of 5.5.3. Cold Climates 1.3.5. Freeze-Thaw Damage Thermal Bridges 5.5.4. Hot, Humid Climates 1.3.6. Delemination And 3.4.3. Effect of lnsulation Location 5.6. Control Strategies Adhesion Loss 3.4.4. Slabs and Below-Grade Walls 5.6.1. Limiting Moisture Sources 1.3.7. Loss of Thermal Resistance 5.6.2. Ventilation and 1.3.8. Efflorescence Chapter 4 Water Groundwater Dehumidification 1.3.9. lnsect lnfestations 4.1. Rain and Groundwater 5.6.3. Vapor Retarders and Air 1.4. lncreasing Durability Against 4.2. Water +Opening+Force Barriers Moisture Damage 4.2.1. Gravity 5.7. lnstalling Air Barriers 4.2.2. Air Currents 5.7.1. Membrane Air barriers Chapter 2 Climate, Weather, and 4.2.3. Capillary Suction 5.7.2. Gypsum Drywall Air Barriers Microclimate 4.2.4. Surface Tension 5.7.3. Exterior Sheathing Air Barriers 18
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