https://www.avient.com/news/archives?page=65
PolyOne Launches New Technologies, Highlights Design Services and 3D Printing at NPE 2015
https://www.avient.com/resource-center/services/avient-design/industrial-design
3D CAD Modeling
Photo Rendering & 3D Prototyping
https://www.avient.com/resource-center?document_type=59&page=30
Edgetek™ 3D/LDS Solutions - Product Bulletin (Chinese)
Advanced technologies to help customers to build 3D circuits on molded part surfaces (Chinese language version)
https://www.avient.com/resource-center?document_type=59&document_subtype=0&industry=0&product_family=0&product_name=0&op=FILTER RESULTS&form_id=resource_filter_form&page=31
Edgetek™ 3D/LDS Solutions - Product Bulletin (English)
Advanced technologies to help customers to build 3D circuits on molded part surfaces (English language version)
https://www.avient.com/resource-center?document_subtype=0&document_type=59&form_id=resource_filter_form&industry=0&op=FILTER RESULTS&product_family=0&product_name=0&page=31
Edgetek™ 3D/LDS Solutions - Product Bulletin (English)
Advanced technologies to help customers to build 3D circuits on molded part surfaces (English language version)
https://www.avient.com/resource-center?document_type=59&page=31
Edgetek™ 3D/LDS Solutions - Product Bulletin (English)
Advanced technologies to help customers to build 3D circuits on molded part surfaces (English language version)
https://www.avient.com/uncovering-possibilities
We’re working to find the ways in which 3D printing can take you to a new level of innovation.
https://www.avient.com/products/engineered-polymer-formulations/conductive-signal-radiation-shielding-formulations/edgetek
Edgetek™ 3D/LDS Solutions
3D/LDS Technology: Edgetek™ Solutions
Edgetek 3D/LDS solutions are advanced technologies to help customers produce 3D Molded Interconnect Devices (MID) for antenna products
https://www.avient.com/sites/default/files/2023-09/SEM Services Capabilities Overview Brochure.pdf
Industrial Design
• Research methodologies
• Brainstorming/problem solving
• Concept sketching
• Ergonomic development
• 3D CAD modeling
• Photo rendering & 3D prototyping
• Color, material, & finish selection
• Design for manufacturing
Part/Tool/Process Design Optimization
Prototype Capabilities
• Over 10 injection molding machines ranging from
50–550 tons:
- Materials sampling and evaluation
• Fully automated continuous fiber reinforced
thermoplastic (CFRTP) injection-overmolding cell
- Prototyping combinations of injection
molded discontinuous fiber reinforced
thermoplastics with CFRTP inserts
• Full suite of auxiliary support equipment
including:
- Material drying
- Water and hot oil thermolators for
mold heating
- Ultrasonic welding for inserts
- Secondary & post operations
• 150-ton compression molding presses
• Profile extrusion
• Co-extrusion film and wire & cable
• Over 20 molds at varying geometries to
validate structural, application, and functional
performance.
Material Data Sets
• A number of material characterization data sets
are available in .udb, moldex 3D, xChange data
cards, and SIPOE format
Mold Filling Simulation (see examples below)
• Serves to validate part design (e.g., gate location,
fill/pack/warp/cool) & material solution
• Evaluates component design viability with
preferred Avient material solution
• Fiber analysis determines fiber orientation
and length
• Predicts part quality and manufacturability
(shrink, warp, weld line location)
FILLING PART QUALITYFIBER ORIENTATION
Finite Element Analysis (FEA)
• Virtually simulates how an application will perform in real-world conditions with a high
level of precision
• Able to represent a variety of problems, test methods, models and outputs to evaluate the design,
process and material combination for validation or optimization
• Dynamic
- Acceleration
- Impact
- Break/no break
- Transmitted force
- Energy absorption
• Thermal Mechanical
- Temperature Computational Fluid Dynamics (CFD)
- Heat path
- Dominant heat transfer
- Temperature mapping
- Coupling with mechanical simulations
FEA Simulation Capabilities
• Static
- Displacement/rotations
- Stress and strains
- Contact pressure
- Reaction forces/moments
- Factors of safety
• Vibration
- Eigen frequencies
- Harmonic response
○ Harmonic
displacement,
acceleration and stress
Software Used
• Autodesk Moldflow
• Digimat
• Simulia/Abaqus
• MSC Cradle
• CAD/CAE
- MSC Apex
- SolidWorks
Failure Mode Effect Analysis (FMEA) Support
By leveraging mold filling simulation,
multiphysics simulation, and the understanding
of the link between design, process and material,
we can help inform your decision-making
process for product development.
https://www.avient.com/sites/default/files/2023-05/SEM Services Capabilities Overview Brochure.pdf
Industrial Design
• Research methodologies
• Brainstorming/problem solving
• Concept sketching
• Ergonomic development
• 3D CAD modeling
• Photo rendering & 3D prototyping
• Color, material, & finish selection
• Design for manufacturing
Part/Tool/Process Design Optimization
Prototype Capabilities
• Over 10 injection molding machines ranging from
50–550 tons:
- Customer prototype molding
- Materials sampling and evaluation
• Fully automated continuous fiber reinforced
thermoplastic (CFRTP) injection-overmolding cell
- Prototyping combinations of injection
molded discontinuous fiber reinforced
thermoplastics with CFRTP inserts
• Full suite of auxiliary support equipment
including:
- Material drying
- Water and hot oil thermolators for
mold heating
- Ultrasonic welding for inserts
- Secondary & post operations
• 150-ton compression molding presses
• Profile extrusion
• Over 20 molds at varying geometries to
validate structural, application, and functional
performance.
Material Data Sets
• A number of material characterization data sets
are available in .udb, moldex 3D, and SIMPOE
format
Mold Filling Simulation (see examples below)
• Serves to validate part design (e.g., gate location,
fill/pack/warp/cool) & material solution
• Evaluates component design viability with
preferred Avient material solution
• Fiber analysis determines fiber orientation
and length
• Predicts part quality and manufacturability
(shrink, warp, weld line location)
FILLING PART QUALITYFIBER ORIENTATION
Finite Element Analysis (FEA)
• Virtually simulates how an application will perform in real-world conditions with a high
level of precision
• Able to represent a variety of problems, test methods, models and outputs to evaluate the design,
process and material combination for validation or optimization
FEA Simulation Capabilities
• Static
- Displacement/rotations
- Stress and strains
- Contact pressure
- Reaction forces/moments
- Factors of safety
• Vibration
- Eigen frequencies
- Harmonic response
○ Harmonic displacement,
acceleration and stress
Software Used
• Autodesk Moldflow
• Simulia/Abaqus
• MSC Cradle
• CAD/CAE
- MSC Apex
- SolidWorks
• Failure mode effect analysis (FMEA) support
By leveraging mold filling simulation, data software,
and physical simulation capabilities, we can help
inform your decision-making process.