Investigation of the Heat Affected Zone of Hot-gas Welded PP Joints
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B. Marczis
Abstract
A large series of experiments was performed using an automated hot-gas welding apparatus to investigate the effect of welding parameters (welding temperature, welding gas flow rate, welding speed, welding force) on the structure of the heat affected zone (HAZ) in polypropylene sheets. Based on optical micrographic studies the HAZ can be divided into three well distinguishable parts: the cool, plastic and flow zone of the raw material. A strong correlation was found among the width of the HAZ and the macroscopic size of the welded seam and its strength. It was demonstrated that (under the given boundary conditions) the strength of the welded joint can be estimated from the external geometrical size of the welded seam well.
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© 2006, Hanser Publishers, Munich
Artikel in diesem Heft
- Contents
- Contents
- Regular Contributed Articles
- Pressure and Temperature Dependence of LDPE Viscosity and Free Volume: The Effect of Molecular Structure
- Correlations between Injection Molding Parameters, Morphology and Mechanical Properties of PPS Using Artificial Neural Networks
- Investigations into Kinematic Reversal in Non-isothermal Flows in Single-screw Machines
- The Effect of Post-extrusion Conditions in Ribbon Extrusion of Polymer Blends
- Effect of the Chemical and Morphological Conditions of the Die Wall on the Extrusion of Linear Polyolefins
- Investigation of the Heat Affected Zone of Hot-gas Welded PP Joints
- Method for the Optimisation of Screw Elements for Tightly Intermeshing, Co-rotating Twin Screw Extruders
- Rheology and Processing of Molten Poly(methyl methacrylate) Resins
- PLLA Morphology Controlled by Dry-cast Process
- Two Component Injection Molding of Phase Separating Blends
- A Low Force Valve for Dynamic Control of Molten Plastics in a Mold
- Influence of Drawing and Temperature on the Optical and Structural Properties of Monofilament PP Sutures
- Mechanical Properties of Rubber-toughened Post-industrial Glass-fiber-reinforced PA66
- Thermal Flow Instability in Metal Injection Molding: Experiment and Simulation
- Review Paper
- State of the Art: Recycling of EPDM Rubber Vulcanizates
- PPS News
- PPS News
- Seikei-Kakou Abstracts
- Seikei-Kakou Abstracts
Artikel in diesem Heft
- Contents
- Contents
- Regular Contributed Articles
- Pressure and Temperature Dependence of LDPE Viscosity and Free Volume: The Effect of Molecular Structure
- Correlations between Injection Molding Parameters, Morphology and Mechanical Properties of PPS Using Artificial Neural Networks
- Investigations into Kinematic Reversal in Non-isothermal Flows in Single-screw Machines
- The Effect of Post-extrusion Conditions in Ribbon Extrusion of Polymer Blends
- Effect of the Chemical and Morphological Conditions of the Die Wall on the Extrusion of Linear Polyolefins
- Investigation of the Heat Affected Zone of Hot-gas Welded PP Joints
- Method for the Optimisation of Screw Elements for Tightly Intermeshing, Co-rotating Twin Screw Extruders
- Rheology and Processing of Molten Poly(methyl methacrylate) Resins
- PLLA Morphology Controlled by Dry-cast Process
- Two Component Injection Molding of Phase Separating Blends
- A Low Force Valve for Dynamic Control of Molten Plastics in a Mold
- Influence of Drawing and Temperature on the Optical and Structural Properties of Monofilament PP Sutures
- Mechanical Properties of Rubber-toughened Post-industrial Glass-fiber-reinforced PA66
- Thermal Flow Instability in Metal Injection Molding: Experiment and Simulation
- Review Paper
- State of the Art: Recycling of EPDM Rubber Vulcanizates
- PPS News
- PPS News
- Seikei-Kakou Abstracts
- Seikei-Kakou Abstracts
