(0)Super Natural Materials
Replacing Petrochemicals With a Shared Biomass Stream
Our goal is to create high performance eco resins that optimize the sustainability of our customers' end products while improving performance and cost. We've replaced petroleum based chemicals with biobased renewable feedstocks. We are able to lower our resins' environmental impact from processing by employing bioderived materials such as pine oils sourced as co-products from wood pulp processing and vegetable oil components sourced from the waste stream of bio-fuel processing.
Benefits of Industrial Pine Oils
Pine trees are indigenous to the entire Northern Hemisphere and its commercial importance to both the lumber and pulp industries had led to the sustainable management of this natural resource. It's from this renewable biomass stream that we derive one of our main ingredients. Our pine-based feedstock are an economic alternative to traditional petrochemicals and provide unique mechanical properties in our resins; such as improved adhesion and elasticity. Our patent pending Super Sap technology is the secret to unlocking these properties.
Waste and Non-Food Grade Vegetable Oils
With rising costs, fears about dependence on foreign sources, and environmental disasters from drilling, replacing petroleum with renewable energy is at the forefront of all societies. Bio-renewable energy, namely bio-diesel fuels, have been identified as an important technology in this effort. Byproducts of biofuels production provide a green chemistry route to one of the main components in our epoxy production. This renewable feedstock replaces additional toxic petrochemical components in our resins with a rapidly renewable resource.
Reduction of Carbon Footprint
It is widely accepted that climate change caused by global warming is the largest environmental threat humans have ever faced. The production and use of fossil based carbon is one of the primary contributors to the massive increase of greenhouse gases in our environment. We believe that by replacing fossil based carbon usage with biobased "living carbon" we can help to reduce this deficit in CO2 and greenhouse gas emissions. By sharing these renewable materials with other industrial processes or by using the waste products from other industries we can further reduce the amount of greenhouse gases we emit into our atmosphere. Lastly by employing new and better processing techniques that require less energy and release less greenhouse gases, we can further improve the carbon footprint for a greener epoxy product.
Consideration for the Environment & User Safety
We try to be cognizant off all the environmental impacts of our products ranging from land use issues to waste to health and safety. Although we may not have all the answers yet to these issues, we do try to be mindful of them when designing our products. Waste and water consumption are two key areas that we try to effect. By choosing materials with better processing techniques than conventional petroleum based materials, we can reduce the water consumption used in the processing of our materials as well as reduce the amount of harmful byproducts, namely the production of dangerous chlorinated hydrocarbons. By employing lowered sensitizing components in our resin systems we can increase the health and safety of our products for the end user.