Contents. Preface... V

Transcription

1 Preface... V 1 MID Technology and Mechatronic Integration Potential Technological Basics Definition and Root Principle Geometric Classification Potential of 3D-MID Technology MID Reference Process Factors Influencing Choice of Technology Differentiation from Related Technology Fields Relevant Industries and Areas of Application MID-Relevant Industries Areas of Application The MID Market, a Global Comparison Historical Development MID Focuses by Region Main Fields of MID Research Key Factors for Successful Projects Network-Oriented Cooperation within the Research Association Molded Interconnect Devices (3-D MID) Materials for 3D-MID Introduction to MID Materials Classes Materials Properties and Determination of Characteristic Values for MID Mechanical Characteristic Values of Plastics Thermal Characteristic Values Short-Term Exposure to Temperature Long-Term Exposure to Temperature Relevant Thermal Characteristic Values for MID Electrical Characteristic Values... 37

2 VIII 2.3 Materials for MID Technology Thermoplastics for MID Standard Thermoplastics Engineering Thermoplastics High-Performance Thermoplastics Modified Thermoplastics for MID Radiation Crosslinked Thermoplastics Highly Filled Thermoplastics Thermoplastics for Selected Technologies of MID Metallization Thermoset Plastics for MID Structuring and Metallization Structuring Processes One-Shot Injection Molding Laser Structuring LPKF-LDS Process ADDIMID Technology Alternative Laser Structuring Processes Printing Techniques Aerosol-Jet Printing Inkjet Printing Hot Embossing Two-Shot Molding Insert Molding Film Insert Molding Thermoplastic Foam Molding Injection Compression Molding Press Insert Molding Other Varieties of Film Insert Molding Alternative Structuring Processes Primer Technology Tampon Printing Plasma Technologies Flamecon Plasmadust Metallization Cleaning the Substrate Surface Metallization Thickness and Roughness of Coatings Current-Carrying Capability...106

3 IX 4 Assembly Technology for 3D-MID Process Chain Assembly-Related Challenges Effect of Structure Component Placement on Three-Dimensional Bodies Automated Assembly Requirements Application of Connection Medium Placement of Components Reflow Soldering Optical Inspection Interconnection Technology Specifics and Challenges Connection Mediums Solder Paste Conductive and Nonconductive Adhesives Isotropic Conductive Adhesives Anisotropic Conductive Adhesives Nonconductive Adhesives Press-In Pins Connection Process Reflow Soldering Techniques Infrared Soldering Convection Soldering Vapor-Phase Soldering Selective Soldering Processes Gluing Press-In Connection Technique Chip Placement Wire Bonding Flip-Chip Technology Glob Top Interfacing to Periphery Protecting Connections Against Environmental Influences Quality and Reliability Challenges of Quality Assurance Simulation-Assisted Quality Validation Nondestructive Testing Methods Optical Testing and Inspection Methods...177

4 X Automated Optical Inspection X-ray Analysis Computerized Tomography X-ray Fluorescence Analysis Destructive Testing Methods Adhesive Strength Peel Test Pull-Off Test Shear Pull Test Chisel Test Cross-Cut Test (Tape Test) Measurement of Shear Force and Pull Test Analysis of Prepared Sections Electrical Characterization Resistance Ohmic Heating Insulating Properties Reliability Analysis MID-Specific Challenges Accelerated Aging Application Example I: High-Temperature MID Application Example II: Press-In Connections MID Prototyping Classification of Samples and Prototypes Visualization Samples Concept Model Fully Functional Sample Prototype Processes for Producing Plastic Blanks Stereolithography Selective Laser Sintering Fused Deposition Modeling Vacuum Casting in Silicone Molds Milling Thermoplastic Semifinished Products Injection Molding Samples and Prototypes Produced by the LPKF-LDS Process ProtoPaint LDS Process LDS Process with FDM Plastic Parts LDS Process with Vacuum Castings LDS Process with Milled Semifinished Products...212

5 XI LDS Process with Moldings from Rapid Tooling Injection Molding Tools LDS Process with Moldings from Steel Tools with Nonhardened Inserts Samples and Prototypes Produced by Hot Embossing Samples and Prototypes Produced by Two-Shot Molding Aerosol-Jet Printing on SLA Parts Overview of the Various Combinations for MID Prototyping Integrative Development of MID Systematic Approach for the Development of MID VDI Guideline 2206: Design Methodology for Mechatronic Systems Thomas Peitz Methodology for Product Optimization of Mechanical Electronic Modules Ingo Kaiser s Systematic Approach for the Development of Mechatronic Systems Requirements Product Conceptualization Production-Process Conceptualization Electronics Design Elaboration of the Production Process Elaboration of Assembly and Connection Technology Work Planning MID-Specific Instruments of Development MID Design Catalogs Properties Cards for MID Processes MID Guidelines MID Features Computer Assistance MID-Specific Requirements for Development Tools Software Tools for Design and Layout Software Tools for Simulation CAD/CAM Chains Case Studies OLED Flow Sensor Multiband Antenna for Smartphones ACC Position Sensor Pressure Sensor...283

6 XII 9.6 MULTI LED Insulin Pump Passive UHF RFID Transponder LED Camera Module D Switching Module Security Caps Solar Sensor Microphone Carrier for Hearing Aid Seat-Adjustment Switch LED Light List of Abbreviations Literature Authors and Contributors Editor Authors Consulting Experts Addresses Research Association Molded Interconnect Devices (3 D MID) Members of the Research Association Molded Interconnect Devices (3 D MID) Index...351