Jis Z: 1707

Plastic film manufacturers use JIS Z 1707 as a benchmark for product development and quality control. In‑house testing according to the standard helps manufacturers:

: It explicitly does not apply to multi-layer structures containing paper sheets or metal foils (such as aluminium laminate layers). These materials are regulated under distinct material-specific standard groups. Crucial Material Requirements

To qualify as a compliant food packaging material under JIS Z 1707, a plastic film must adhere to exact physical thresholds. In academic research and industrial cross-validation, the most frequently cited baselines include: Maximum Film Thickness

In the world of food safety and packaging reliability, standards play an essential role in ensuring that the materials contacting our food are consistent, safe, and fit for purpose. Among these, stands as a cornerstone Japanese Industrial Standard (JIS) for plastic films used in food packaging. Whether you are a packaging engineer, quality assurance professional, manufacturer, or importer, understanding JIS Z 1707 is crucial for ensuring product safety and compliance across Japan and beyond. jis z 1707

This procedure evaluates the container's safety against sharp food items (like bones or dried noodles) and external distribution impacts. A standardized pin is pierced directly into the film to measure the exact compression force required to cause a breach, mapping out real-world pinhole risks. 2. Tensile and Elongation Properties

For companies importing food packaging materials into Japan, or exporting packaged foods to Japan, compliance with JIS Z 1707 is often a prerequisite. The standard is referenced in procurement specifications, quality agreements, and regulatory submissions.

Ensuring the plastic does not migrate harmful chemicals into food. Plastic film manufacturers use JIS Z 1707 as

If you are in the food industry or manufacturing, you’ve likely come across JIS Z 1707

Modern sustainable alternatives, such as chitosan-based edible films and bioplastics, which are frequently evaluated against this benchmark. Excluded Materials Packaging formats exceeding 250 µm in thickness.

As the industry moves toward sustainability, is increasingly used to validate new, eco-friendly materials. Research studies (e.g., studies on carrageenan-based films or cassava starch mixtures) often use this standard to prove that new bioplastics are strong enough and safe enough to replace traditional plastic packaging, with many biodegradable formulations being designed to meet or exceed these traditional standards. Conclusion Crucial Material Requirements To qualify as a compliant

Environmental factors

The standard applies to both intended for use in food packaging. It defines "film" as a membranous polymeric material that is a primary component of food packaging and has a thickness of less than 250 μm .

JIS Z 1707 provides a reliable, well-documented framework for specifying and testing industrial PE films in demanding logistics environments. Compliance assures mechanical strength, dimensional accuracy, and water resistance. For any engineer sourcing or approving packaging materials for export to Japan—or within Japanese-owned facilities—referencing JIS Z 1707 remains a practical and legally recognized quality benchmark.

In the realm of industrial standards, Japan has established a reputation for precision, quality, and reliability. Among its numerous standards, Jis Z 1707 stands out as a critical specification for compressed air, used across various industries. This article aims to provide an in-depth look at Jis Z 1707, its significance, and the role it plays in ensuring the quality and safety of compressed air systems.

For any bioplastic, edible film, or synthetic polymer to achieve a JIS Z 1707 certification , it must satisfy rigid physical, mechanical, and barrier metrics: