Temporary wet strength technology plays a crucial role in modern papermaking, especially for products designed to be flushable or easily recyclable. NINGBO INNO PHARMCHEM CO.,LTD. is a leading supplier of advanced solutions in this field, offering a repulpable wet strength agent that perfectly balances in-use performance with environmental considerations.


Unlike permanent wet strength agents, which make paper very difficult to break down when wet, temporary wet strength additives are engineered to provide sufficient strength during use but then rapidly degrade in water. This characteristic is indispensable for products like household tissue paper and other disposable paper goods, ensuring they function as intended without causing blockages in drainage systems.


Our product exemplifies this balance. It ensures that paper products can withstand temporary exposure to moisture, such as for toilet paper or paper towels, but then quickly lose their integrity when submerged for recycling. This facilitates efficient paper recycling solutions, reducing the time and energy needed for repulping. For manufacturers looking to buy a rapid curing wet strength resin for paper recycling, our agent offers significant operational advantages due to its fast curing time.


NINGBO INNO PHARMCHEM CO.,LTD. also provides comprehensive guidance on the optimal wet strength agent dosage for various paper properties and applications. Understanding the precise amount needed can maximize performance while minimizing cost and environmental impact. We are a dedicated paper wet strength chemical supplier, committed to supporting our clients with both high-quality products and expert technical assistance.


The demand for sustainable and flushable paper products continues to grow. By leveraging advanced temporary wet strength technology from NINGBO INNO PHARMCHEM CO.,LTD., manufacturers can meet these demands, create superior products, and contribute to a more sustainable future. Our solutions are at the forefront of eco-friendly pulp and paper chemistry, offering an excellent balance of functionality and environmental responsibility.