[Industry News]Upgrading of Molding Technology to Meet the Demand of High-End Scenario Expansion
Release time:
Mar 23,2026
![[Industry News]Upgrading of Molding Technology to Meet the Demand of High-End Scenario Expansion](/npublic/img/s.png "[Industry News]Upgrading of Molding Technology to Meet the Demand of High-End Scenario Expansion")
Analysis on Technological Upgrading and High-End Development of the Pulp Molding Industry
The pulp molding industry is currently undergoing a dual transformation of scenario expansion and technological iteration. Its application scope has expanded from basic products such as traditional food containers to high value-added fields including high-end electronics, medical consumables, logistics pallets, and special-shaped precision packaging. The iterative upgrading of molding technology has become a core competitive barrier in the industry, determining whether enterprises can enter the high-end track and seize market dominance.
Core Technological Breakthroughs: Focusing on Deep-Cavity, Special-Shaped and Integrated Molding to Tackle Industry Pain Points
As of March 2026, deep-cavity/special-shaped molding and integrated molding technologies have become the core R&D hotspots in the industry and the key focus of technological research for leading enterprises. A number of innovative technological achievements have been launched in the industry, among which a representative technology has won a major industry innovation award. It has overcome long-standing technical bottlenecks restricting the industry, such as "zero-degree demolding" for deep-cavity products and "linear stretching" for vertical walls, completely breaking the molding limitations in the high-end precision packaging sector and filling the domestic technological gap in high-end special-shaped plant fiber molded products.
Equipment Iteration and Upgrading: Fully Automatic High-End Production Lines Empower Quality and Efficiency Improvement
Supporting production equipment has also ushered in intelligent and precision-oriented upgrades. A new generation of fully automatic production equipment for high-quality pulp molded industrial packaging has achieved technological innovation, equipped with the core quantitative grouting molding technology. This technology fundamentally resolves chronic industry problems in traditional processes, including slurry deterioration and recycled contamination, greatly reduces product weight deviation, and ensures product precision and consistency. The single-machine daily production capacity of such equipment exceeds 1.2 tons, enabling flexible adaptation to the production needs of various high-end industrial packaging products with superior compatibility and production efficiency.
Industrial Value Restructuring: High-End Molding Equipment Emerges as a New Profit Engine with Substantially Increased Added Value
Such high-end molding equipment precisely meets the stringent compliance requirements of high-end application scenarios for products featuring high precision, high strength, and food-grade/medical-grade standards, completely reshaping the value positioning of pulp molding equipment. Currently, the unit price of high-end molding equipment is more than 50% higher than that of ordinary standard equipment, with continuously expanding profit margins in the equipment sector. It has become a core new engine for enterprises in the industry to optimize their revenue structure and achieve profit growth, further driving the entire pulp molding industry to transform towards high-end, refined and intelligent development.
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Minjie Eco-Machinery Technology Co., Ltd.
Factory
Tangxia Town, Pengjiang District, Jiangmen City, Guangdong, China
Operation Center
Lihe Science Park, Shishan Town, Nanhai District, Foshan City, Guangdong, China