polymers - process & post-processing treatments induced failures
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Polymers - process & post-processing treatments induced failures. Dr Xi Peng Polymer Scientist. Agenda. Polymer and Plastics Product Concept Plastics Processing and Issues Post-processing Treatment Testing and Problem Solving. Polymer and Plastics. Polymer - PowerPoint PPT PresentationTRANSCRIPT
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POLYMERS - PROCESS & POST-PROCESSING TREATMENTS INDUCED FAILURES
Dr Xi PengPolymer Scientist
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Agenda
− Polymer and Plastics
− Product Concept
− Plastics Processing and Issues
− Post-processing Treatment
− Testing and Problem Solving
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Polymer and Plastics
− Polymer
− A polymer is a long chain of small molecules repeatedly joined together
− Plastics
− A plastic is a mixture of a polymer material and additives (anti-oxidants, fillers, plasticisers, pigments, UV stabilisers, etc..)
Polyethylene (PE)
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Product Concept
− Material Selection
− Design
− In-service Conditions
− Processing
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Material Selection
There are approximately 100 generic types of plastice.g. polypropylene, Nylon, phenolic resin.
Within these types are subgroupse.g. Nylon: Nylon 6, Nylon 6-6, Nylon 12
For each subgroup there will be many grades available:e.g. easy flow, food grade, UV stabilised, fire retardant, etc.
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Influences of Design
− Item size
− Assembly methods (e.g. screw fixing, welding, adhesives, snap fitting, etc.)
− Transparency
− Surface finish
− In contact with other materials
− Expected life
− End of life – recycling, biodegradable
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In-service Conditions
− Temperature requirements – minimum/maximum temperature; continuous or occasional exposure
− Chemicals from surroundings
− Stress – residual stress from moulding; stress from assembly method; applied stress in the application
− Outdoor application – UV resistance
− Fire retardant
− Electrical properties
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Plastics Processing
− Moulding - Injection, Blow, Transfer, Rotational
− Extrusion - Continuous long items of uniform section, e.g. film, sheet, pipe, profile, coating
− Forming - Vacuum Forming, Pressure Forming
− Other - Spreading, Dipping, Sintering, Casting
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Plastics Processing
− Extrusion – Film
− Extrusion – Pipe
− Extrusion – Profile
− Other Extrusion
− Injection Moulding
− Blow Moulding
− Thermoforming
− Other Processes
Click icon to add picture
Smithers Rapra
Film 35%
Pipe 10%
Prof ile 2%Other Ext.
9%T'forming 4%
Blow Mld. 11%
Inj.Mld 26%Other 3%
W.Europe Thermoplastics Demand by Process (Total 36mt)
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Injection Moulding
− Probably the most common plastic processing technique
− Rapid cycle time with good dimensional control & part to part consistency
− Materials must be well mixed to ensure uniform melting
− Items can be identified by the marks of gate & ejector pins
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Injection Moulding
Common Issues:
− Short shot – incomplete mould filling
− Flashing – leakage of molten plastic around split line or core pins
− Weld lines – poor weld line strength
− Sinking & Voiding
− Poor dimensional tolerances
− Warpage
− Excessive residual stresses
− Brittle mouldings
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Extrusion
− Continuous long items of uniform section
− Rods & tubes
− Gas & water pipes
− Window frames
− Cable sheathing
− Films & Sheets
− Compounding of filled or reinforced grades of plastic materials
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Extrusion
Common Issues:
− Contamination
− Polymer chain scission & cross-linking
− Surface instability – sharkskin
− Cooling rate control
− Co-extrusion problems
− Uneven mixing in compounding
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Post-processing Treatment
One-off Process
− Annealing – heating plastic part at an temperature close to its Tg that makes the residual stresses relieved and increases its ductility
− Machining – controlled material-removal process in which a component is cut, drilled or polished into a desired final shape and size
− Coating – a process of applying covering to the surface of an object for decorative and/or functional purposes
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Post-processing Treatment contd.
Multiple Repeat Process
− Cleaning – a process using devices and cleaning agents to clean items
− Sterilisation – any process that eliminates microbiological organisms present on the surface of device
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Cleaning
− To remove any unwanted substances – the contaminations from the part surface
− May involve heat, pressure & chemicals
− Cleanliness validation – surface analysis
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Issues Caused by Cleaning Process
− Degradation – can be caused by heat (thermal oxidation), chemical attack and/or hydrolysis; leading to reduction of molecular weight and deterioration of the physical/chemical properties
− Material migration – relates to low molecular weight species present in plastics, e.g. residual monomers, additives, low molecular weight oligomers, reaction/breakdown products, etc.; migration increased due to heat and/or polymer swelling
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Issues Caused by Cleaning Process
− Environmental stress cracking (ESC) – exposed to chemical environment in combination with tensile stress
− Delamination – co-extruded or over-moulded items; thermal expansion of polymer ~ 10 times metal insert
− Discolouration – yellowing due to generation of coloured species during degradation
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Sterilisation
Main methods:
− Heat (e.g. dry, steam, boiling)
− Pressure (e.g. autoclave)
− Chemicals (e.g. ethylene oxide)
− Ionising radiation (e.g. Gamma rays, electron beam)
Effects on polymers vary depending on the polymer structure
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Issues Caused by Sterilisation Process
− Degradation leading to polymer chain scission and/or cross-linking
− Change in colour – e.g. yellowing
− Generation of odour due to volatiles formed by reactions
− Leave toxic residuals or by-products on the polymer surface
− Influence on extractables and leachables
− Disintegration of multi-layer and over-moulded part
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Analysis Techniques for Process-Induced Failures
Polymer Degradation
− Gel permeation chromatography (GPC): measurement of molecular weight (MW) and molecular weight distribution
− Rheological testing: e.g. melt flow index (MFI), rotational viscometry
− Mechanical testing: e.g. tensile strength and modulus, elongation
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Analysis Techniques for Process-Induced Failures
Contamination
− Infrared spectroscopy (FT-IR): identification of polymers & contaminants
− Microscopy combined with elemental analysis technique (e.g. scanning electron microscopy/energy dispersive X-ray analysis, SEM/EDX): detection & identification of any inclusions and unspecified materials
− Chromatography (e.g. gas chromatography with mass spectrometry, GC-MS): separation & identification of low molecular weight contaminants
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Analysis Techniques for Process-Induced Failures
Porosity & Voids – may cause structural weakness & stress concentration
− Optical and/or electron microscopy (e.g. SEM)
− Pressure leak testing
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Analysis Techniques for Process-Induced Failures
Excessive Residual Stresses – may cause environmental stress cracking (ESC)
− Dip testing: by applying a known ESC agent (solvent) to the part any high stress areas will tend to crack; the time-to-crack is indicative of the level of residual stress
− Thermal analysis (e.g. differential scanning calorimetry, DSC): indication of processing history that determines the level of residual stress
− Impact test: high residual stress low impact strength
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Analysis Techniques for Process-Induced Failures
Uneven Mixing of Components – may cause structural weakness & stress concentration
− Optical and/or electron microscopy (e.g. SEM)
− Thermal analysis (e.g. thermogravimetric analysis, TGA): providing information about additives/fillers
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Analysis Techniques for Process-Induced Failures
Low or Excessive Crystallinity
high crystallinity embrittlement
low crystallinity loss of properties
− X-ray diffraction (XRD): determination of crystallinity and crystallite size
− Thermal analysis (e.g. differential scanning calorimetry, DSC): providing information about relative crystallinity
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Analysis Techniques for Process-Induced Failures
Material Migration
Can alter the extractables and leachables profile – generally include processing aids, polymerisation residues, additives & reaction products
− Profiling of chemical species by GC-MS
− Identifies relatively volatile, thermally stable compounds
− Molecular weight range 50 to~500 Daltons
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Material Migration contd.
− Profiling of chemical species by LC(liquid chromatography)-MS
− Identifies volatile to oligomeric sized compounds
− Can be used for thermally unstable compounds, polar compounds and aromatic hydrocarbons
− Molecular weight range 200 to >1000 Daltons
− Quantitative determination of trace elements by inductively coupled plasma (ICP)
− Quantitative determination of non-volatile residues (NVR)
− Infrared (FT-IR) analysis of NVR – overall chemical nature of residues
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Summary
Polymer & polymer product developmentPolymer processing Injection moulding
ExtrusionProcessing issues Processing imperfection
Material degradationExcessive residual stresses ContaminationUneven mixing of components Under/over crystallisation
Polymer post-processing treatment
ClearingSterilisation
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Summary contd.
Issues from post-processing treatment
DegradationMaterial migration ESCContaminationDiscolourationDisintegration
Analysis techniques Spectroscopy (e.g. FT-IR)Chromatography (e.g. GC-MS)Microscopy (e.g. SEM)Thermal analysis (e.g. DSC, TGA)Elemental analysis (e.g. EDX)Physical testing (e.g. tensile, impact)
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Thank you