Join us in Suzhou for a dialogue with HySum on sustainable flexible packaging.
August, like a blooming flower, still dreams of summer. From August 27 to August 29, HySum New Materials, alongside domestic and international experts, senior scholars, and leading enterprises, gathered by the banks of Dushu Lake for the "2024 Suzhou Dialogue," organized by the China Pharmaceutical Packaging Association. This event was a major highlight, representing one of the most influential gatherings in the pharmaceutical packaging and excipients industry.
HySum New Materials provided strong support for this significant event. During the Safety and Innovation Forum, Fu Jian, the R&D Director of HySum New Materials, delivered a presentation titled “The Application of Sustainable Flexible Packaging in Pharmaceutical Packaging,” which was attended by a full house of participants.
In his speech, Fu Jian outlined four primary directions for sustainable and recyclable materials in pharmaceutical packaging: single-material polyolefins, paper/fiber-based materials, compostable and biodegradable/bio-based polymers, and aluminum foil metal-based materials.
HySum New Materials offers tailored recyclable and sustainable pharmaceutical packaging solutions for these directions, meeting diverse packaging and barrier requirements, and introducing innovative ideas to the industry.
Fu Jian emphasized that sustainable transformation is a consensus within the industry, with the global pharmaceutical packaging sector committed to eliminating chlorine by 2025.
HySum has already achieved this goal ahead of schedule this year by replacing PVC with polyolefin material blister technology, becoming the world's first company to complete production with this technology. This advancement not only reduces carbon emissions but also maintains high barrier properties and safety stability for pharmaceutical packaging.
As a leading enterprise in the field of high-barrier recyclable flexible packaging materials, HySum New Materials integrates sustainability into its business decisions and long-term investments. The company actively promotes carbon reduction and environmental pollution control, demonstrating its commitment to sustainability through concrete actions.
HySum recently launched the industry's first flexible packaging carbon footprint visualization platform. This platform allows enterprises to easily manage product carbon footprints throughout their lifecycle, develop effective emission reduction measures, and scientifically reduce carbon emissions, thereby accelerating the transition to intelligent and green operations.
In terms of industry-academia-research collaboration, HySum New Materials has partnered with Donghua University's Advanced Low-Dimensional Materials Center to research new single-material high-barrier flexible packaging structures and sustainable low-carbon flexible packaging materials. This collaboration focuses on addressing challenges and pain points in the flexible packaging industry.
Following the conference, HySum New Materials was invited to host the exclusive "HySum Night" themed dinner. This event brought together industry authorities, senior scholars, and leading enterprises to discuss cutting-edge trends in pharmaceutical packaging and sustainable packaging technology. They shared their insights on industry transformation, upgrades, innovation, and technological breakthroughs, highlighting the remarkable achievements of the pharmaceutical packaging industry in sustainable development.
Through the 2024 Suzhou Dialogue and "HySum Night" events, HySum New Materials demonstrated its commitment and determination to advance sustainable flexible packaging, sparking new ideas and innovations in the industry.
As the leading brand in cold-formed aluminum, HySum New Materials has safely protected over 30 billion drug blisters. Looking ahead, HySum aims to create an innovative hub for sustainable flexible packaging, continuously providing technical solutions and project demonstrations for recyclable and low-carbon solutions, and moving towards a green, low-carbon future.