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Heat Sealing Technology and Engineering for Packaging: Principles and Applications - Product Image

Heat Sealing Technology and Engineering for Packaging: Principles and Applications

  • Published: January 2009
  • Region: Global
  • 267 Pages
  • DEStech Publications, Inc

This book is the first to cover all phases of heat sealing as it relates to packaging. Beginning with the basics of heat-sealing processes and thermoplastic materials, the book explains, with numerous formulas and original experimental data, all the key parameters. With this information, the author presents new ways to improve the reliability of heat sealing—and the quality of heat-sealed packaging. Novel monitoring techniques are provided that enable packaging engineers to better control parameters that lead to safer, more effective seals in pouches, bags and cups, and with different materials, including laminates. Specifically, the author shows how important it is to have accurate measurement of the melting surface. The book explains techniques for carrying out such measurements and demonstrates how they lead to better heat seal process control. These techniques, along with novel ways of using the peel seal and tear seal, are explained in practical terms, to assist engineers to troubleshoot and eliminate problems encountered in heat sealing, e.g., overheating, polyball, and packaging failure. Hundreds of illustrations and numerous case studies support the practical information READ MORE >

Foreword

Preface to the Japanese Edition

Preface to the English-Language Edition

Acknowledgements

1. History and Function of Heat Sealing Technology
- Development of Heat Sealing Technology
- History of Improvement for Heat Sealing of Thermoplastic Thermoplastics
- Maintenance Function of Packaged Product Quality using Heat Sealing
- Features of Heat Sealing
- Problems of Over Heating for Sealing
- Approach of Rationalized Heat Sealing
- References

2. The Chemistry of Heat Sealing
- Utilization of the Thermoplasticity of Polymer Materials
- Adhesion in Heat Sealing
- Features of Thermoplastic Polymer Materials for Packaging Applications using Heat Sealing
- References

3. The Fundamentals of Heating for Heat Sealing
- Aspects of the Responses of the Melting Surface Temperature during Heat Sealing
- Strategies for Efficient Heat Sealing
- Features and Selected Applications of Heating Methods
- Problems with Conventional Evaluation Methods for Heat Sealing
- References

4. Fundamentals of Heat Sealing Operation
- Melting Surface Temperature as the Fundamental Control Factor in Heat Sealing
- Measuring Method for Temperature of Melting Surface: The ""MTMS""
- Measuring the Melting Properties of Each Film Material and Determining a Lower-Limit Temperature
- References

5. Factors in Heat Sealing Failure
- Adequate or Inadequate Heating
- Thermal Stresses that Cause Packaging Failure
- Causes of Crinkles
- Controlling Overheating as a Solution for Heat Sealing Failure

6. Making the Conventional Heat Sealing Method More Efficient
- Introduction
- Measuring the Temperature Response of Each Heat-Seal Portion in Quadruple-Layered Films
- Relation between Applied Pressure and the Temperature of the Melting Surface for Heat Sealing
- Measurement of the Melting Surface Temperature for Heat Sealing with Films Containing Volatile Components
- Effects on Heat Sealing Operations of Teflon Sheet Attached to the Heating Block Surface
- Measurement of Surface Temperature Distributions on the Heating Block
- Problem Analysis in Single-Side Heating
- Other Factors Affecting Temperature Distributions and Radiant Heat on Heat Seal Films
- Pros and Cons of Knurling Tool Finish
- Changes in Heat Seal Strength Caused by Roughness of the Bonding Surface 100
- References

7. Experimental Technique for Inspecting Peel Seal and Tear Seal
- Polyball as a Cause of Package Failure
- Experimental Technique for Inspecting Peel Seal and Tear Seal: Development of the ""Angle Method""
- References

8. Methods for Confirmation and Improvement of Heat Sealing Functions
- Utililization of the Peel Energy of Peel Seal
- Thickness and Heat Seal Strength of the Heat Sealant
- Synergism of Laminate Strength and Heat Seal Strength
- Satisfying HACCP Regulations when using Heat Sealing
- Observation, Inspection, and Utilization of Easy Peel
- Causes of and Countermeasures against Foaming in the Melting Layer
- References

9. Functional Improvements to the Heat Sealing Process
- Causes and Correction of Pinhole and Edge Cutting
- Utility of Peel Seal Region
- Accurate Adjustment Technique of Surface Temperature for Heating Block
- Simulation of Arbitrary Melting Surface Temperature
- Hot Tuck and the Effect of Cooling Press
- Practice of Optimization of Heating Temperature
- Novel Heat Sealing Method Combining Peel Seal and Tear Seal: ""Compo Seal""
- References

10. Case Studies of Analysis and Improvement of Heat Sealing Failure
- Introduction
- Examination of Appropriate Heat Sealing Conditions for Sterilized Medical Packaging Materials (Nonwoven Fabrics)
- Case Studies of Lid Seal Failure in Paper Cup Packaging
- Effect of Redesigned Packaging Materials on Performance Improvement
- Precise Measurements for Heat Sealing Properties of Biodegradable Plastic
- MTMS Analysis of Failure by ASTM Standard (F88-00)
- Collaboration among Packaging Material Manufacturers, Package Machine Manufacturers, and Users
- References

11. Heat Seal Test Method that Complements the JIS Standard Method and uses the Melting Surface Temperature as a Parameter
- Proposed Novel Methods for the Analysis and Management of Heat Sealing
- Future Directions of Novel Methods for the Analysis and Evaluation of Heat Sealing
- References

Appendix 1-Heat Sealing Issues and Troubleshooting Methods Addressed

Appendix 2-List of Patents/Pending Patents Discussed in the Book

Glossary

Index

About the Author

Dr. Kazuo Hishinuma is currently chief executive of Hishinuma Consulting in Kawasaki, Japan. Prior to this position he worked for Ajinmoto Company, Ltd. as an engineer. Dr. Hishinuma earned his doctorate at the University of Tokyo, and is the author of numerous articles and book chapters on the subject of heat sealing and packaging. In July of 2008 he received a major prize and grant from the Japanese Society of Packaging Science & Technology for his contributions to the advancement of heat-sealing technology.

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