Woodridge, Ill., USA -- Elevance Renewable Sciences, Inc., a high-growth specialty chemicals company, announced the commercial availability of Inherent C18 Diacid ? a mid-chain length, bio-based diacid ? that enables producers of polyamides and polyurethanes, lubricants and adhesives to significantly expand their portfolios with cost-competitive products that demonstrate performance not possible from products made with more common, shorter-chain diacids.
Elevances unique, efficient process to produce C18 diacid, also known as octadecanedioic acid or ODDA, uses materials produced from its world-scale biorefinery in Gresik, Indonesia ? the first based on Elevances proprietary metathesis technology. The process allows Elevance to make Inherent C18 Diacid with the purity required for demanding applications like polymers at a cost that is competitive with other specialty diacids in the marketplace.
"Elevances proprietary technology and novel specialty chemicals enable our partners to create new and expanded product lines to grow their businesses," said Elevance CEO KLynne Johnson. "Inherent C18 Diacid is the most recent addition to our growing line of bio-based commercial solutions that can provide our customers with high-performance products for their markets. These solutions make it possible for engineering polymers, used in durable goods, to be made from a broad number of renewable feedstocks. Our engineering polymer customers can now add bio-based products with enhanced performance to their portfolios, expanding their supply chains while achieving their business and sustainability goals."
As a diacid, or if converted to diamine, a C18 diacid enables the creation of more than a dozen new base polymers that can result in more than a hundred new compounds or formulations. For example, Inherent C18 Diacid will allow polyamides to enter new automotive and electronic applications that demand better hydrolytic performance, improved optical properties and greater material toughness or flexibility.
Using Inherent C18 Diacid in polyester polyols enables the creation of new, previously unattainable pre-polymers, helping polyurethanemanufacturers create polymers with exceptional solvent resistance, hydrolytic stability, optical clarity and toughness that will benefit automotive, food service, medical and other markets.
本站所有信息与内容,版权归原作者所有。网站中部分新闻、文章来源于网络或会员供稿,如读者对作品版权有疑议,请及时与我们联系,电话:025-85303363 QQ:2402955403。文章仅代表作者本人的观点,与本网站立场无关。转载本站的内容,请务必注明"来源:林中祥胶粘剂技术信息网(www.adhesive-lin.com)".
©2015 南京爱德福信息科技有限公司 苏ICP备10201337 | 技术支持:南京联众网络科技有限公司