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Agenda

Agenda. Company profile Global Glass Manufacturer Float Glass Manufacturing Process Locally Produced Products How to Choose Glass Heat Flows in Malaysia Why Low E? Technical Information Product Range - Pilkington Optifloat™ - Pilkington Specialty Glass - Pilkington Coated Glass

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Agenda

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  1. Agenda • Company profile • Global Glass Manufacturer • Float Glass Manufacturing Process • Locally Produced Products • How to Choose Glass • Heat Flows in Malaysia • Why Low E? • Technical Information • Product Range - Pilkington Optifloat™ - Pilkington Specialty Glass - Pilkington Coated Glass • Performance Data

  2. Company Profile • 1971 – MSG Established • 2004 – Wholly owned by Nippon Sheet Glass (NSG) • June 2006 – Acquisition of Pilkington by NSG

  3. Global Glass Manufacturer

  4. FLOAT GLASS MANUFACTURING PROCESS

  5. Glass Manufacturing: Raw Materials Silica Sand, Soda Ash, Felspar, Dolomite, Cullet

  6. DOLOMITE CHINA AND USA SODA ASH SILICA SAND JAPAN CHINA CARBON FELSPAR SALT CAKE Raw Material Source

  7. Float Glass Manufacturing Process Mixing at Batch Plant Delivery Melting at Furnace Forming at Bath Refining at Furnace Annealing at Lehr Washing, drying and defects analysis Cutting and inspection Production and packing 8

  8. Glass Manufacturing: Furnace Interior

  9. Glass Manufacturing: Tin Bath (Float)

  10. Glass Manufacturing: Finished Ribbon Washing, Cutting, Checking, Stacking

  11. Pilkington Optifloat™Clear Glass • Available from 4mm ~ 19mm thick 12

  12. Pilkington Optifloat™Clear Glass Features & Benefits • Maximizes daylight transmittance • Wide range of thicknesses • High clarity • Flat surface

  13. Pilkington Optifloat™ Tinted • Green • Emerald Green • Blue • Bronze • Dark Grey • Arctic Blue 14

  14. Pilkington Arctic Blue™ & Emerald Green™ High Performance Tint • Provides both lower shading coefficient and good daylight transmittance compared to regular tints • Low exterior reflectance • Low UV transmittance • Excellent performance when combined with Low-E for reduced heat gain • All these are produced & available in Malaysia 15

  15. Pilkington Optifloat™ Tinted Features & Benefits • Good solar control • Reduces cooling loads • Low external & internal reflectance

  16. Reflite™ Reflective Glass • New coating facility in Malaysia • Features & Benefits • Medium solar control (low SHGC) • Low Shading coefficient (SC) • Subtle Reflectivity - privacy • Pyrolytic coating (hard coat) • Easy to handle • Good glare control • Air conditioning costs reduced 17

  17. Pilkington Texture™ • Pilkington Nashiji™ Clear • Pilkington Mistlite™ Clear • Pilkington Karatachi™ Dark Grey

  18. Pilkington Texture™ Features & Benefits • Decorative • Privacy • Diffused daylight • High light transmittance

  19. Benefits of Using Local Glass • Complies with local & International Standards • Stock availability • Quick replacements • Prompt technical support • Survival of local industries • Reduced carbon footprints

  20. VARIABLES The many window innovations available today require a designer to make selections in at least 16 different variables

  21. 1. GLASS THICKNESS • 2.5, 3, 4, 5, 6, 8, 10, 12, 16, 19 mm 10

  22. 2. TINTS: • Low-Iron Clear, Clear, Green, Blue-Green, Blue, Bronze, Light Grey, Grey, Dark Grey 9 90

  23. 3. COATINGS:Visible Absorbing • Visible Reflective • Visible Color (Gold) • Low Emittance • Solar Absorbing • Solar Reflective • Solar Transmitting • Self-Cleaning • Anti-Reflective • Other (UV Block, Anti-Graffiti) 10 900

  24. 4. HOW MANY LIGHTS? • Single Glazing Double Glazing Triple Glazing Add-On Panels 4 3,600

  25. 5. IG SPACER • Aluminum, • Partly Insulating, • ‘Warm Edge’ • 3 10,800

  26. 6. Gas Fill • Air, • Argon, • Krypton • 3 32,400

  27. 7. GLASS STRENGTH • Annealed, • Heat Strengthened, • Tempered 97,200

  28. 8. IMPACT RESISTANCE • Laminated 0.015” pvb • Laminated 0.030” pvb • Laminated 0.060” pvb • Laminated 0.090” pvb • Colour interlayer • Impact Resistant Interlayer • Acoustic Insulating Interlayer • CIP (Cast in Place Epoxy Laminate) • 8 777,600

  29. 9. LAMINATION ORIENTATION • Coated plies: • Coating to air side OR • Coating against interlayer (pvb etc.) • n.b. Low-E coatings touching the • interlayer lose their low-e property • because glass is opaque to Far IR! • 2 1,555,200

  30. 10. FIRE RESISTANCE: • Wired Glass, Intumescent Laminates - • 20, 30, 60, 90, 120 minutes Fire Rating • 5 7,776,000

  31. 11. ELECTROCHROMIC: • Switch between High & Low SHGC.Switch between Transparent & Translucent. 2 15,552,000

  32. 12. ELECTROMAGNETIC SHIELDING: • Prevent electronic data escaping.Prevent interference entering. • Different db shielding levels 3 46,656,000

  33. 13. ORIENTATION OF OUTER LIGHT • 2 93,312,000

  34. ORIENTATION OF INNER LIGHT • 2 186,624,000

  35. ORIENTATION OF IGU • Everyone should use hand-held coating • detector meters • 2 373,248,000

  36. That makes about millions different combinations!ONE is the best. All others are likely less than best. • HOW DO YOU CHOOSE?

  37. CONCLUSIONS • Glazing choices are many and varied • IG gas fills and some coatings (4 at least) are invisible • You cannot see by eye: U-Factor or SHGC • There are tools, codes, standards and certification programs available • Which bring us to low e, energy savings, and green issues….

  38. Glass for Malaysia • How do you choose? • Performance issues • Look of the building • Energy Savings • Green initiatives • Many, many factors

  39. TECHNICAL INFORMATION 40

  40. The 4 Energy/Heat Flows Remember: Heat Flows from Hot to Cold 3% 47% UV Visible Solar IR Far IR 50%

  41. Heat Flows from HOT to COLD Conduction Convection Radiation

  42. U-Factor measures the rate of heat transfer from warm air side to cool air side. Watts/sq.m.degC Far IR Radiation Conduction Convection

  43. SHGC Solar Heat Gain Coefficient % of Sun’s heat striking a window that enters a room (by conduction + convection + radiation) Far IR Radiation Solar IR Radiation Convection

  44. Shading Coefficient % of Sun’s heat striking a window that enters a room (by conduction + convection + radiation) Compared to % of Sun’s heat striking a 3 mm Clear Glass window that enters a room (by conduction + convection + radiation) SHGC ~ 0.87 x Shading Coefficient Shading Coefficient is a Poor # to use…Why? Whose 3mm glass? Why not 6mm? SHGC is a pure formula and preferred.

  45. Heat enters when the sun shines through the glass: SHGC (Solar Heat Gain Coefficient) or SF or S/C About half as much enters over a 24 hour day by conduction (U-Factor, or K factor) for 15 °C difference (40 °C outside, 25 °C inside) Adding Low Emissivity always helps because it lowers SHGC and it lowers U-Factor

  46. Three Numbers are needed: • Tdw for fading control. (Free from LBNL Windows 5 http://windows.lbl.gov/software1 to 0. Lower means less fading. ) • SHGC for Solar Control (or SF or Shading Coefficient x 0.87 Lower value means less solar heat gained inside the building from sun shining on the window) • U-Factor for thermal control(or U-Value, K Factor. Conversion: 1Btu/hr.sq.ft.°F = 5.68 Watt/sq.m.°KLower value means less heat flow by conduction from warm to cold)

  47. WHAT TO DO: • Select Glass for appearance, daylight transmission, color, reflectivity, etc. • Add a Low Emissivity property, and add a light of glass, for better Solar control if a solar absorbing layer is present. • For better Thermal control add Low-E, and add a light of glass (double glazing)

  48. Glass Energy is Either: Transmitted Reflected Absorbed The Flow of Visible and Invisible (Infrared) Energy from the Sun. Glass, Light, & Heat

  49. 3mm monolithic CLEAR 100% 6% Reflected Out 86% Transmitted In 7% Absorbed (Emitted Out) 1% Absorbed (Emitted In ) • 8% Total Rejected 13% 87% Total Admitted Typical Glass Energy Characteristics OUTDOOR INDOOR

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