Thin Wall Injection Molding Design and Process
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Thin wall injection molding is now the fastest developing molding technology for house hold containers .
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Thin Wall Injection Molding Design and Process
- 1. Thin wall injecTion molding NAIK DEVANG
- 2. why design wiTh PlasTic ? • Excellent Barrier resistance • Non Toxic Properties • Odorless • Easily formed into complex shapes • Wide choice of appearance, colors and transparencies
- 3. maTerial ProPerTy for Thin wall molding • Improved flow ability : permits luxury with odd geometry in shapes • •Low density & packing weight permits affordable cost to performance • •Excellent toughness to withstand against content • •Optimal combination of flow, impact resistance & stiffness • •Stack ability for ease of bulk transport. • •Excellent stiffness for the freedom of attractive shape & size • •Superior clarity & crystalline for the product visibility.
- 4. Thin-Wall injecTion Molding • What is “ Thin Wall Injection Molding’’ ? –• Wall thickness often <0.6 mm –• Parts with flow ratio >150 –• High Injection pressure –• High Injection speed –• Applications for containers in packaging and storage as well as disposable use.
- 5. FasT cycling Molding – Key RequiReMenTs • A mold which is capable to run fast cycles for a long period • A capable injection molding machine • Consistency in Raw Material • Production environment with essential well define Auxiliaries • Cooling water for molding machine • Fast and precise machine movements for prolonged period.. • Chilled water for mold • Energy saving operation
- 6. Reasons FoR “Thin Wall injecTion Molding” • Less material per part means less material cost per part • Thinner wall thickness means shorter cooling time and therefore shorter cycle time resulting towards, • Higher Productivity –High Profitability
- 7. Machine Selection criteria • Higher cavity pressures result in higher necessary Clamp forces. • High Injection Pressure with > 2200 bar. • High acceleration with accumulator- power > 350 mm/s. • Faster Response of controller within 2 mili seconds to be synchronized by Smart hydraulic for the shortest cycle time.
- 8. Machine Setting for “Thin Wall Injection Molding” • Nearly no holding or packing necessary • Often Injection against mechanical stop in the injection unit with no cushion • Start injection before clamp force is fully built for better venting • Short cooling time • Optimized machine movements for short cycle time • Parallel machine movements
- 9. Selection of injection Unit • Important factors: –•Screw torque –•Melt temperature –•Injection rate and pressure –•Cycle time - cooling time –•Plasticizing rate –•Repeatability –•Screw Geometry
- 10. Mould Selection criteria for “thin Wall injection Molding” • Short runner channels to reduce flow length and pressure losses • • Hot runner is preferred compared to cold runner systems • • Gate bigger in size because of higher volume flow through cross section • • Special arrangement for gating like cascade or sequential injection; per part multi-gating
- 11. liMitationS of “thin-Wall injection Molding” • To high material stress • • Flow properties of material • • Residence time for material because of smaller shot weights • • Economical situation, related to investment costs compared advantages
- 12. •thank you TWIM