FOR FURTHER INFORMATION ON THE NILFLAM RANGE OF PRODUCTS PLEASE TELEPHONE THE KINGSPAN TECHNICAL SERVICES DEPARTMENT (01457)

FOR FURTHER INFORMATION ON THE NILFLAM RANGE OF PRODUCTS PLEASE TELEPHONE THE KINGSPAN TECHNICAL SERVICES DEPARTMENT (01457) 861611 INDUSTRIAL INSULATION Kingspan Industrial Insulation Limited PO Box 3, Charlestown, Glossop, Derbyshire, SK13 8LE, UK Telephone: +44 (0) 1457 861611 Fax: +44 (0) 1457 852319 enquiries@kooltherm.kingspan.co.uk

CI/SfB (5-) Xn6 (M2) January 1999 POLYISOCYANURATE FOAM Benefits & Advantages Closed cell structure and excellent moisture resistance. Low and stable thermal conductivity. Rigid, lightweight and strong. Resistant to a wide range of chemicals and solvents. Oil resistant. Compatible with polyester and epoxy resins. Non-Fibrous. Resistant to fungus, mould and will not sustain vermin. Odourless and non-tainting. Proven track record. Easy to cut, shape and fabricate. A wide range of pre-formed products and densities. Manufactured in accordance with certified and audited ISO 9002 Quality Management Procedures. INDUSTRIAL INSULATION

Technical Data DESCRIPTION Nilflam is a polyisocyanurate (PIR) foam manufactured by a similar process and to the same high quality standards as Therma polyurethane foam. Whilst retaining all the benefits of polyurethane foam, Nilflam also has greatly increased resistance to burning and spread of flame plus a higher temperature limit of +140 C. Nilflam was first developed in 1968 at the Glossop factory of Kingspan Industrial Insulation Products. It has since gained a worldwide reputation in the petro-chemical, cryogenic, liquid gas processing and other industries where its name is synonymous with specifications for high quality thermal insulation in the temperature range -180 C to +140 C. The primary method of manufacture is a continuous production plant with the capacity to produce blocks of foam up to1200mm wide, in lengths up to 4 metres. The quality of the foam is continuously monitered and controlled. This method of production has distinct advantages over discontinuous block production in individual moulds, particularly with regard to maintaining consistent foam quality. Blocks of foam are converted into flat slabs or pre-formed insulation sections using modern computer aided manufacturing techniques. Polyisocyanurate foam is also suitable for the production of complex shaped moulded products such as valve and flange boxes. 2

AVAILABILITY Blocks and flat slabs. Preformed sections for pipes, process vessels and storage tanks. Preformed insulation for profiled architectural panels. Mouldings. Nilflam is available in densities of 32 to 50 kg/m 3 which are used for the majority of thermal insulation applications. Higher densities of 60 kg/m 3 to 160 kg/m 3 are also available. Nilflam has been tested under cryogenic conditions and independent laboratory test reports are available. CHEMICAL RESISTANCE AND COMPATIBILITY Nilflam has excellent resistance to a wide range of chemicals and solvents. It is compatible with most solvent based coatings and adhesives, polyester and epoxy resin based coatings. ENVIRONMENTAL PROPERTIES Nilflam is manufactured entirely without CFC blowing agents. It provides designers and specifiers with excellent thermal efficiency which is the key to compliance with international environmental legislation. HYGIENE Nilflam is resistant to fungus and mould growth, will not sustain vermin, is non-fibrous, odourless and non-tainting. FIRE PERFORMANCE TEMPERATURE RANGE Nilflam thermal insulation products may be used for operating temperatures from -180 C to +140 C. INSULATION PERFORMANCE Nilflam products are amongst the most efficient thermal insulation materials available and retain their thermal efficiency under the most severe operating conditions, due to their closed cell structure and high resistance to moisture absorption. Products in the density range of 32 to 50 kg/m 3 have a fully aged thermal conductivity value of 0.023 W/m.K at a mean temperature of 10 C. Nilflam is a thermoset material and its composition is such that when subjected to fire, its outer surface forms a strong carbonaceous layer that retards further flame spread and penetration. It does not melt or produce flaming droplets when exposed to fire, as is the case with thermoplastic type materials. Nilflam satisfies the requirements of the major industrial insulation specification. Surface Spread of Flame, BS 476: Part 7 Class 1 ASTM - E84 <25 3

Technical Data MOISTURE RESISTANCE Nilflam products have a minimum closed cell content of 90% giving them excellent resistance to moisture penetration and wicking. TECHNICAL DATA For further comprehensive data on all of the above mentioned properties, please refer to the following tables for each density of Nilflam available. TYPICAL APPLICATIONS Although primarily designed for use as an industrial thermal insulation material, Nilflam s unique blend of properties and versatility has led to its use in a wide range of industries including; Oil refinery and chemical process plant Liquid gas and cryogenic process plant Refrigeration pipework and equipment Refrigerated road, rail and marine transport Refrigerated display cabinets Food processing and brewery industries Temperature controlled warehouse building panels Cold store panels MOD submarine and surface vessel applications Aircraft industry Architectural construction panels Glass reinforced plastics 4

STANDARDS Nilflam rigid polyisocanurate (PIR) products comply with or exceed the requirements of the following British Standards; BS 5608:1993 Preformed rigid polyurethane (PUR) and polyisocyanurate (PIR) foams for thermal insulation of pipework and equipment. BS 4840: Part 1: 1985 Rigid polyurethane foam in slab form. Specification for use in transport containers and insulated vehicle bodies. BS 4840: Part 2: 1994 Rigid polyurethane foam in slab form. Specification for use in refrigerator cabinets, cold rooms and stores. BS 5422: 1990 Method of specifying thermal insulation on pipes, ductwork and equipment. BS 5970: 1992 Code of practice for the thermal insulation of pipework and equipment. Nilflam products will comply with the appropriate BS EN European Standards as they come into effect. TECHNICAL SUPPORT SERVICES Information and technical advice is available from the Technical Services Department of Kingspan Industrial Insulation. The values given against these properties are typical. They are not meant to imply specification limits and should not be used for this purpose without reference to Kingspan Industrial Insulation. This brochure cancels and supersedes all previous editions. Kingspan Industrial Insulation reserves the right to amend specifications without prior notice. Whilst the information contained in this brochure is true and accurate to the best of our knowledge and belief, all liability for errors and omissions, damage or loss resulting herefrom is hereby excluded. Recommendations for use should be verified as to suitability and compliance with actual requirements, specifications and any applicable laws and regulations. 5

Technical Data TABLE 1 - GENERAL PHYSICAL PROPERTIES PHYSICAL PROPERTIES UNIT TEST METHOD VALUE Nominal Density kg/m 3 BS 4370/ 32 40 45 50 ASTM D1622 Thermal Conductivity at 10 C Mean Temp. W/mK BS 4370/ 0.023 0.023 0.023 0.023 (Refer also to Table 4) ASTM C177 *See Note Initial Value 0.019 0.019 0.019 0.019 180 day fully 0.023 0.023 0.023 0.023 aged value Minimum Closed Cell Content % BS 4370/ 90 90 90 90 ASTM D2826 Water Vapour Permeance (Max) g/pa. sec.m 7 x10-7 ASTM E96 3.6 3.6 3.6 3.6 (38 C/95% RH) Compressive Strength at 10% Compression, (1) Parallel to Rise kpa BS 4370/ 172 225 250 330 Perpendicular to Rise kpa ASTM D1621 100 180 200 250 Shear Strength 32 40 45 50 Parallel to Rise kpa BS 4370/ 100 200 250 280 Perpendicular to Rise kpa ASTM C273 100 200 250 280 Flexural Strength Parallel to Rise kpa BS 4370 250 400 475 550 Perpendicular to Rise kpa 225 370 450 500 Tensile Strength Parallel to Rise kpa BS 4370/ 200 350 450 550 Perpendicular to Rise kpa ASTM D1623 170 300 375 450 Leachable Chloride Content ppm ASTM C871 <90 <90 <90 <90 Operating Temperature Limits, Upper Limit C +140 +140 +140 +140 Lower Limit (4) C -180-180 -180-180 TABLE 2 - FIRE TEST CLASSIFICATIONS (Small scale tests on unfaced foam) 32 40 45 50 Horizontal Burning BS 4735 Max. Extent of Burn 10mm 10mm 10mm 10mm Extinguishing time after removal of test flame 0.Sec 0.Sec 0.Sec 0.Sec Ignitability BS 476: Part 5 Class P Class P Class P Class P Surface Spread of Flame BS 476: Part 7 Class 1 Class 1 Class 1 Class 1 ASTM-E84 <25 <25 <25 <25 Weight Retension ASTM D3014 90% 90% 90% 90% Fire Resistance DIN 4102 B2 B2 B2 B2 TABLE 3 - CRYOGENIC TEST DATA ( AT -165 C) 40 45 50 Cryogenic Thermal Stress Resistance Factor (CTSR) >1.5 >1.5 >1.5 6 Coefficient of Thermal Expansion m/m.k x 10-6 ASTM E228 30-70 30-70 30-70

TABLE 4 - THERMAL CONDUCTIVITY DESIGN VALUES Densities 32 kg/m 3 to 50 kg/m 3. Fully aged 180 day ASTM - C177 test values and including a +10% design safety factor. Mean Temperature ( C) +80 +50 +20 0-20 -50-100 -150-180 Thermal Conductivity (W/mK) 0.030 0.028 0.023 0.022 0.023 0.024 0.023 0.016 0.013 *See Note TABLE 5 - Nilflam Range densities normally used for specific thermal insulation applications. The values quoted are typical and are not meant to imply specification limits. PHYSICAL PROPERTIES UNIT TEST METHOD VALUE Nominal Density kg/m 3 BS 4370/ 60 80 120 160 ASTM D1622 Thermal Conductivity at 10 C Mean Temp. W/mK BS 4370/ 0.025 0.027 0.031 0.033 (180 day fully aged value) ASTM C177 Minimum Closed Cell Content % BS 4370/ 90 90 90 90 ASTM D2826 Water Vapour Transmission µgm/nh BS 4370/ 15 15 15 15 ASTM E96 Compressive Strength at 10% Compression, (1) Parallel to Rise kpa BS 4370/ 490 840 1400 2100 Perpendicular to Rise kpa ASTM D1621 275 560 1200 1900 Shear Strength Parallel to Rise kpa BS 4370/ 345 410 480 560 Perpendicular to Rise kpa ASTM C273 300 330 380 460 Flexural Strength Parallel to Rise kpa BS 4370 800 950 1100 1300 Perpendicular to Rise kpa 900 1100 1250 1500 Tensile Strength Parallel to Rise kpa BS 4370/ 690 740 800 900 Perpendicular to Rise kpa ASTM D1623 800 1000 1100 1200 Coefficient of Linear Expansion m/m K 10 _ 6 BS 4370 30-80 30-80 30-80 30-80 Dimensional Stability -20 C for 24 hours % change BS 4370 1 1 1 1 +110 C for 24 hours % change 2 2 2 2 +70 C at 100% RH for 24 hours % change 2 2 2 2 Operating Temperature Limits, Upper Limit C +140 +140 +140 +140 Lower Limit (4) C -180-180 -180-180 Fire Classification on Unfaced Foam, (2) Ignitability, BS 476 Part 5 Class P Class P Class P Class P Horizontal Burning, Extent of Burn (Maximum) mm BS 4735 10 10 10 10 *See Note Note (1) If used for long term compressive load bearing applications a safety factor of 5 is recommended. Parallel to rise values may be used for flat slabs. Perpendicular to rise values should be used for preformed pipe sections. (2) Higher fire classifications can be achieved on suitably faced polyurethane foam. eg: Class 1 to BS 476: Part 7 Polyurethane foams are organic and therefore classified as combustible in accordance with BS 476: Part 4. (3) Rigid polyurethane foam may be used at temperatures below -180 C provided that precautions are taken to prevent the condensation of atmospheric oxygen at the insulation equipment interface. 7