Sales slides 2010

Basics of Thermosets, Scientific Molding, and Steel Selection

Fundamental Differences between Thermoplastics and Thermosets Thermoplastics are Supplied as Chemically Finished and Stable Compounds Thermoplastics Must Be Melted and Converted at Relatively High Temperatures Thermoplastics Can Be Repeatedly Softened and Solidified The Bulk of Thermoplastic Materials Are Supplied As Unfilled Products Thermosets Are Supplied As Partially Formed Polymers Processing Is Designed to Complete the Polymerization Process and Make the Molded Part At the Same Time Conversion Temperatures Are Relatively Low Finished Product Consists of a Network Solid That Cannot Be Re-melted Almost All Thermoset Compounds Are Highly Filled

General Advantages of Thermosets Low Initial Viscosity Allows for Long Flow Paths and Production of Large Parts High Electrical Insulation Properties Low Processing Temperatures Allow the Use of Organic and Thermally Unstable Fillers and Modifiers Cotton Flock Wood Flour Polyester Fabric Walnut Shells Alumina Trihydrate (ATH) Hemp Good Cost/Performance Balance for Elevated Temperature Properties Wide Range of Processes and Forms for Raw Material Provide Good Versatility in Design/Performance Equation Cannot Melt or Soften in Catastrophic Thermal Runaway Events High Levels of Filler Tend to Result in Materials That Shrink and Warp Less than Reinforced Thermoplastics Excellent Compressive Properties Batch Process Allows for Creative Material Modifications More Creep Resistance Than Thermoplastic

General Disadvantages of Thermosets Material Properties are Not as Developed as Thermoplastic Low Initial Viscosity of Materials Results in Flash and the Need for Secondary Operations Low Tensile Strength and Ductility Tend to Result in Parts Designed with Thick Walls Compounds Are Reactive Systems – Results in Shelf Life Problems Batch Processes Result in More Inconsistent Lot-to-Lot Consistency High Levels of Some Fillers Result in Excessive Tool Wear The Unique Nature of Each Thermoset Family Does Not Help Thermoset to Thermoset Replacements for Future Cost Reduction Compound Formulations Overly Secretive Some Material Suppliers Compete with Their Molding Customers Product Quality Dependent Upon the Degree of Crosslinking Established During the Molding Cycle Breakdown in High Vibration Applications Poor Thermal Conductivity for Housing Replacements

Generic Specific Gravity Material Value Magnesium 1.74 Aluminum 2.75 Zinc 7.14 Nylon 6/6 – 33% Glass Fiber 1.39 PPS – 40% Glass Fiber 1.65 Polyethersulfone – 30% Glass Fiber 1.58 Thermoset Polyester 1.75-1.95 Vinyl Ester 1.75-1.95 General Purpose Phenolic 1.40-1.75 High-Performance Phenolic 1.40-1.80

Cost Analysis – Price/Pound (March 2008)

Cost Analysis – Price/Cubic Inch (March 2008)

Material Choices in Thermosets Phenolics Aminos (Melamine, Urea) Unsaturated Polyesters Polyurethane Allyls (DAP, DAIP) Polyimides Silicones Epoxy Casein Cross Over point is Phenolic equals PPS

Phenolic Two-Stage (Novalac)-Shelf Life Infinite (normal storage) Produced with Acid Catalyst and a portion of the required Formaldehyde Product is a brittle compound that will not cure with heat and is considered a thermoplastic Hardener is required to complete cure which is usually Formaldehyde in the form hexamethyleneteramine (hexa), which upon heatings forms ammonia and formaldehyde Two-Stage (Novalac) Properties Broken down in to General Purpose, Non-bleeding, Heat Resistant, Impact, and Electrical They Maintain dimension stability for an indefinite amount of time at normal atmospheric conditions High degree of resistance to deformation under load

Phenolics – Advantages Excellent Dimensional Stability – Low Coefficient of Thermal Expansion Very High Surface Hardness – Good Wear and Friction Properties Excellent retention of physical properties at high temperature (300F continuous, 500F short bursts-Post Bake 340F Continuous) Good Insulator both electrically and thermally Multiple Fillers (Inorganic and Polymeric) Highly Resistant to Solvents and Automotive Fluids

Phenolics - Disadvantages Single Stage Resins Unstable at Temperatures Above 45 F Making Production Sensitive Two-Stage Resins Available Only in Black and Dark Colors Such As Brown, Dark Blue, Dark Red and Green Susceptible to Electrical Tracking Usually Require Post-Baking to Achieve Optimal Properties (Two-Stage Resins) Very Low Impact Resistance Two-Stage expels Ammonia

Urea – Properties Any Color High gloss and durable High mechanical strength, heat resistance, fire resistance, good electrical arc, and arc tracking Scratch Resistant Readily used in compression and transfer, requires modification for injection molding to extend flow “life” Heat Resistance up to 170F

Melamine - Properties Similar to Urea but Higher heat resistance, chemical, moisture, electrical, and scratch resistance Multiple fillers can be used (wood flour, minerals, and cellulose fiber) FDA approved for food contact even at high temperature High surface gloss Bright sharp colors that are light fast Extreme Hardness Excellent Arc Resistance

Polyester Chemical Forms Ortho: Most widely used Iso: Better mechanical properties and chemical resistance than Ortho more costly Bisphenol A fumarates: Very good chemical and thermal properties – considered high performance Chlorendics: Excellent chemical properties combined with some flame retardancy Vinyl esters: Exceptional mechanical and chemical properties but higher cost

Polyester - Forms Free-flowing granular Pelletized (PMG) Putty or rope-type extrudates Sheet molded compound (SMC) High bulk factor compounds (BMC) Thick molding compounds (TMC)

Polyesters - Advantages Available In A Wide Range of Colors Excellent Electrical Properties Combined with Ignition Resistance Good Toughness for Thermosets Can be Molded in to Complex Shapes

Polyesters - Disadvantages Maturation Process Required Prior to Molding Styrene Crosslinking Agent Is Volatile Causing Viscosity Changes As A Function of Storage Time

Thank you ! NASHOTAH OPERATIONS N44 W33341 Watertown Plank Rd. Nashotah, WI 53058 Phone: 262.367.5200 This is the proprietary property of Dickten Masch Plastics and intended solely for internal use of specified customer/prospects only. Use of this information outside the scope of intended use is strictly prohibited. Email: dickten@dicktenplastics.com Website: www.dicktenplastics.com ANKENY OPERATIONS 3401 S.E. Convenience Blvd Ankeny, Iowa 50021 Phone: 515 964-2675 MONTERREY OPERATIONS Boulevard TLC#200 Parque Industrial, STIVA Aeropuerto Apodaca, Nuevo Leon, CP66600 Mexico

Sales slides 2010

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