Research and Development
TURI’s research is driven by the needs of industry. Each year, we solicit input from companies about their specific research and development needs to reduce the use of toxics. Based on industry needs, we award grants to academic researchers to help identify and develop safer and effective alternatives for industry. Most of our research is in the public domain, much of which is available to the public.
TURI’s research program works with individual companies and supply chain consortia for different business sectors, such as those listed below. To learn more about our research, visit our Resource Hub to review TURI’s Research Reports.
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Electronics
TURI works with companies across the electronics industry supply chain to identify safer alternatives to commonly used toxic chemicals. Industry representatives collaborate with TURI to determine best practices and assess the reliability and quality of alternative methods for manufacturing electronic components and printed wiring boards.
TURI recently worked with various companies to replace PFAS in electronics processing fluids like coolants and etching solutions with safer formulations. Transene Company, a Massachusetts-based manufacturer of advanced materials for the electronics industry now offers a safer solution for electronics etching based on their collaborative work with TURI and the University of Massachusetts Lowell.
As a member of the Clean Electronics Production Network, TURI staff works with companies, suppliers, advocates and governments on finding safer alternatives used in the electronics industry. Our past work with the electronics sector includes the New England Lead Free Electronics Consortium, a collaboration between TURI, U.S. EPA and several companies throughout the printed wiring board supply chain. This fact sheet provides a summary of the work of the Consortium. Similarly, TURI brought together raw material suppliers, compounders, extruders and OEMs (Original Equipment Manufacturers) to address environmental challenges facing the coated wire and cable industry. This supply chain faces European, Japanese and US regulatory pressure on a number of key wire and cable materials, including: Lead, Brominated Flame Retardants, PVC, Plasticizers.
TURI connects university research on the environmental impact of wire and cable constituents, laboratory evaluation of alternative materials, and meetings that draw firms from throughout the supply chain to address human and environmental impacts, regulatory requirements, new technology developments, and business and technical strategies.
Coated wire Photo: AlphaGary
Morgan Advanced Materials, a manufacturer of porcelain electrical supplies for medical and aerospace industries, used trichloroethylene (TCE) for several tasks, including wax removal after ceramic grinding. After investing in a new vapor degreaser system and a new solvent mixture tested by the TURI laboratory, Morgan eliminated the use of TCE, thereby enhancing the health and safety of its workers, eliminating TURA reporting, and reducing costs.
This short video describes Morgan’s decision-making process, cost savings and expected improvements in health and safety and regulatory obligations.
Case Study Documents Costs and Financial Benefits of Switching
The case study describes the new equipment, environmental health and safety considerations, performance testing results and cost analysis. Download the case study.
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Refrigerants
TO BE DEVELOPED
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Paint and other coating removal
Methylene chloride, or dichloromethane (DCM), is commonly used as a metal degreaser, a paint stripper and as a component in adhesives. It’s also used by workers to remove conformal coatings from printed circuit board components.
High, short-term exposures to methylene chloride can be lethal. Its extreme volatility makes it especially dangerous, since it is very easy to create unsafe airborne concentrations through evaporation. Learn more about methylene chloride.
Due to the serious adverse health effects of methylene chloride, TURI has funded and conducted multiple research projects to find safer alternatives.
Safer Paint Stripping Products Available to Consumers
TURI worked with the U.S. EPA, UMass Lowell researchers, paint stripper product manufacturers, bathtub refinishers and furniture refinishers to identify and test safer solvent blends that have general paint stripping performance comparable to that of methylene chloride based paint strippers.
Consumers in the U.S. and Canada now have a safer alternative to dangerous paint strippers. The new product is marketed under the Super Remover New Generation brand. One of the manufacturing sites will be US Pack in Leominster, Mass.
The Safer Pipe and Paint Products Program (SP4)
The Safer Pipe and Paint Products Program (SP4) is a project supported by the U.S. Environmental Protection Agency (EPA) and managed by the Toxics Use Reduction Institute (TURI). Its mission is to help retailers, manufacturers, and labor unions offer safer alternatives to PVC cement and paint stripping products, specifically those free from hazardous chemicals of significant concern. Learn more about (SP4)
Conformal Coatings in Electronics
A conformal coating protects components from harsh environments like moisture, dust and temperature extremes. In order to repair the underlying circuit board, workers typically use hazardous volatile solvents, such as methylene chloride, to remove the coating.
The research results of a recent TURI Academic Research Grant project identified safer alternatives to methylene chloride used to remove conformal coatings on printed circuit boards. The study, led by Assistant Professor Wan-Ting (Grace) Chen of the Plastics Engineering Department at UMass Lowell in partnership with Raytheon Company, was recently published in Polymers Journal. Read the article, Removing Acrylic Conformal Coating with Safer Solvents for Re-Manufacturing Electronics.
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Aerospace and Defense
TURI founded and manages a consortium of leading companies in the aerospace and defense industry to find safer alternatives to hexavalent chromium. This higher hazardous substance is used for corrosion protection in various coating applications such as bond primers, sealants and conversion coatings.
The consortium has identified and tested the performance of safer substances with positive results including passing industry performance standards for bond primers, sealants and conversion coatings. See the results in our Resource Hub.
Collaborative Research: Hex Chrome Free Bond Primers
Bond primers containing hexavalent chromium compounds are currently being used in aerospace manufacturing with several different combinations of surface preparations, substrates, and adhesives. The bond primers are used to improve the adhesion of structural bonds and historically have included hexavalent chromium as a corrosion inhibitor. Hexavalent chromium contained in these bond primers is prohibited in applied materials in concentrations over 0.1% under the 2011 Defense Federal Acquisition Regulation Supplement (DFARS), “Minimizing the Use of Materials Containing Hexavalent Chromium”. In 2014, a Hexavalent Chromium Free Bond Primer Evaluation Team was established to identify, test, and evaluate various safer commercially available bond primer materials. The team includes representatives from the U.S. Air Force, Boeing, Bombardier, GE Aviation, Lockheed Martin, NASA, Raytheon and University of Massachusetts Lowell, among others.
The goal of this effort is to produce a Joint Test Protocol with the intention of ultimately providing the data necessary to justify the use of DFARS-compliant hexavalent chromium free bond primers for aerospace applications. MMM-A-132 is the primary specification used as a guide for testing and acceptance criteria. This effort is intended to eventually become designated as a NASA Technology Evaluation for Environmental Risk Mitigation (TEERM) project.
Collaborative Research: Hex Chrome Free Sealants
Sealants containing soluble hexavalent chromium compounds are used in aerospace/defense manufacturing primarily for the filling of gaps and recesses to prevent water intrusion in an attempt to prevent corrosion of the base metal. Regulatory mandates have accelerated a global effort industry wide to replace hexavalent chromium containing materials because they are carcinogens, mutagens, developmental toxicants, and have high acute toxicity. The principal technical performance challenge for transitioning to hexavalent chromium free polysulfide sealants is twofold; the corrosion inhibiting properties of the hexavalent chromium free alternatives are not well understood, and the industry and military standards’ qualification tests do not adequately differentiate between hexavalent chromium containing and hexavalent chromium free formulations.
In 2012, a Hexavalent Chromium Free Sealant Evaluation Team was established to identify, test, and evaluate various safer sealant materials. The team includes representatives from TURI, Lockheed Martin, Raytheon, Northrop Grumman, Bombardier, National Aeronautics and Space Administration (NASA), Naval Air Systems Command (NAVAIR), Air Force Research Laboratory (AFRL), and Army Aviation and Missile Command (AMCOM).
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Food and Beverage
FOOD AND BEVERAGE
TURI has provided grants and performance testing services to help companies in the food and beverage industry reduce toxics, including Little Leaf Farms in Devens, Mass. The lettuce grower chose to use a high pressure washer to clean gutters rather than using harsh chemicals. See more in the video.
Watch the Little Leaf Farms Video: Lettuce Grows Greener
Finding Safer Ways to Clean and Sanitize
The following companies have also found safer ways to clean and/or sanitize:
- Fat Moon Mushrooms – switched from using bleach to a safer alternative.
- Merrimack Ales, Lowell – found safer ways to clean and sanitize brewery tanks.
- Kettle Cuisine, Lynn – reduced the use of sodium hydroxide used for cleaning.
- Cape Cod Chips, Hyannis – eliminated the use of two chemicals used to test frying oil.
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Metal production
Metal Finishing
The metal finishing industry often uses highly toxic chemicals such as heavy metals, acids, solvents and reactants, that makes this sector an opportunity for improvement.
River Street Metal Finishing, Inc., in Braintree, Mass. recently shared how they reduced the use of sulfuric acid in the anodizing process. Watch this two-minute highlight video.
To learn more details, view the one-hour River Street Metal Finishing webinar. Read the River Street case study.
Fabricated Met
The fabricated metal product industry transforms metal into intermediate or end products. Companies in this sector use processes that machine, treat, coat, plate, paint and clean metal parts. To clean and strip metal surfaces, companies typically use solvents, acids and other toxics.
CD Aero Eliminates Use of nPB
CD Aero in New Bedford found a safer alternative cleaning process to the use of n-propyl bromide (nPB). With a new aqueous cleaning process, the company is now saving $46,000 per year, protecting health and safety and reducing its regulatory obligations. Learn more.
Umicore Electrical Materials
Umicore Electrical Materials USA Inc. in Attleboro manufactures contact materials for the electronics industry. The facility had been using a vacuum degreaser with the cleaning solvent perchloroethylene (PCE) before purchasing a new vacuum degreaser that’s used with a new, safer solvent blend. Read the case study.
Riverdale Mills Reduces Use of Toxic Chemicals
Riverdale Mills of Northbridge, a manufacturer of welded wire mesh, received a TURI industry grant to reduce the use of hydrochloric acid, sodium hydroxide and ammonium hydroxide in their coating process. The company developed a two-part dual roller system that first removes excess water and then excess acid from the surface of the wire mesh, which prevents water getting into the acid bath and acid dragging into the rinse tanks. Read the case study. Visit the Riverdale Mills demonstration page for the recorded webinar and more details.
Lytron Reduces Trichloroethylene by 6,000 Pounds
Lytron located in Woburn received a TURI industry grant to reduce the use of TCE. In the video below, Alan Smith describes how he used TURI’s laboratory testing services to evaluate the effectiveness of solutions that worked in a vacuum degreaser to remove lubricating oils from aluminum flat and fin parts. The new solution has reduced the company’s TCE emissions by 6,000 pounds.
Independent Plating, a metal finishing company, converted a nickel plating line to accommodate a new technology that substitutes trivalent chromium for hexavalent chromium.
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Cleaning & Disinfection
Located at Boott Mills in Lowell, TURI has analytical, microbiology, wet and demo labs, all to help companies find safer cleaning methods or formulations that work. With decades of experience testing the performance of safer cleaning chemicals, TURI offers guidance on how to reduce your risk to the coronavirus while also avoiding unnecessary exposure to toxic chemicals. U.S. EPA’s Design for Environment, now Safer Choice, recognized the TURI Laboratory as a “Champion” in its Safer Detergents Initiative.
The TURI Laboratory tests the performance of cleaning and disinfection products to encourage companies, institutions and product formulators choose and develop safer substitutes. Whether you’re a metal finishing company, product formulator, facility manager or any organization looking for safer cleaning products and processes, the TURI Laboratory can help.
Our Resources
Raytheon Technologies Case Study
Raytheon Technologies, manufacturer in the aerospace and defense sector, eliminated its use of lead, cadmium and hexavalent chromium to protect the environment and human health.