The transformation of agricultural waste into high-value industrial products is a hallmark of modern sustainable chemistry. Our Bio-Based Silica PF170 exemplifies this innovation, turning humble rice husks into a potent and eco-friendly anticaking agent that enhances the performance of countless powdered materials. This journey from agricultural by-product to advanced chemical additive highlights our commitment to both sustainability and product excellence. As a leading manufacturer in China, we are proud to share the story of PF170.
The Humble Beginnings: Rice Husks as Raw Material
Rice husks, the outer protective layer of rice grains, are a significant agricultural residue globally. Traditionally, these husks have been a disposal challenge. However, their rich silica content makes them an ideal feedstock for producing bio-based silica. Our process leverages this abundant, renewable resource, diverting waste from landfills and transforming it into a valuable industrial ingredient. This circular economy approach is central to our manufacturing philosophy.
The Innovation: Carbon Dioxide Acidification Process
The critical innovation behind PF170 lies in its production method. Instead of relying on traditional chemical precipitation agents, our process utilizes carbon dioxide acidification. This method not only yields a high-purity, amorphous silica with superior anticaking properties but also significantly reduces the environmental footprint associated with chemical manufacturing. The resulting silica, with its distinct micro-pearl structure and high surface area, is exceptionally effective at preventing particle agglomeration and ensuring powder flowability. For businesses looking to buy environmentally responsible chemicals, PF170 is a prime example.
PF170: A Superior Anticaking Agent
The unique properties of Bio-Based Silica PF170 make it an indispensable additive for a wide range of industries. Its efficacy as an anticaking agent is well-documented, ensuring that powders remain free-flowing, easy to handle, and maintain their quality during storage and transport. Key applications include:
As a dedicated supplier, we ensure that when you buy PF170, you are receiving a product that delivers consistent performance and supports your sustainability goals.
Your Trusted Partner for Sustainable Chemicals
Our manufacturing capabilities in China allow us to produce high volumes of Bio-Based Silica PF170 while maintaining competitive pricing. We are committed to quality control and continuous innovation, ensuring that our products meet the evolving needs of the global market. By choosing our bio-based silica, you are not just purchasing a chemical additive; you are investing in a sustainable future and partnering with a company dedicated to responsible manufacturing. If you are seeking to buy high-performance, eco-friendly silica, look no further.
We invite you to explore the transformative potential of Bio-Based Silica PF170. Contact us today for more information, to request a sample, or to get a personalized quote for your bulk purchase needs.
Manufacturing Facilities






Professional Export Experience
to Global Customers
1. 20 years of R&D, manufacturing and sales experience, serving customers in 60 countries and regions around the world;
2. Own R&D laboratory, pilot platform and large-scale production workshop, which can meet the audit requirements of global customers;
3. We can satisfy customers' perfect transition from small scale lab requirements (gram level) to commercialization requirements (hundred tons level).
A: We don't have Minimum Order Quantity, exact quantity should be provided before quotation for us to calculate the exact cost.
A: We don't provide free samples due to lots of request and expensive international courier's cost, we can deduct the sample charge after commercial order placed.
A: Our payment terms: Small or sample order: T/T IN ADVANCE. Commercial order: First order should be by T/T IN ADVANCE or L/C at sight, and following orders T/T 30~90days is acceptable subject to approval of credit application.