Today sensors are common in household appliances. Sensors are utilized in refrigerators, washers, dryers, and other appliances, offering better control over a variety of functions. They enable energy efficiency, and ensure reliability and safe operation of the appliance. Additionally, household appliances are becoming smarter—therefore sensors are playing an even greater role in how consumers interact with these appliances.
Household appliance manufacturers want sensors in their products to work properly and be reliable. No one wants the temperature sensor in a refrigerator to stop working—that could result in a refrigerator that is either too warm or cold, and either spoiled or frozen food. Or, what if a temperature or water level sensor fails in a clothes dryer? It may not heat or it could over heat, and be a fire hazard. These are just two examples of what can happen when a sensor malfunctions or stops working.
There are many useful applications of sensors in refrigerators, including temperature control, humidity level, door position, water/ice dispenser lever, drawer and compartment cover position, ice bucket fill level and drain pan level. In washing machines sensors are used for lid/door position, water level, dial position, drum speed, and detergent level. Sensors in clothes dryers are used for door closure, lint filter, dryer rotary selector and drum speed. Both washing machines and dryers use temperature sensors to control the temperature of inflow and outflow water and air.
The key to having reliable sensors is to use material solutions that meet specific requirements—this will ensure reliability and safety. The key materials requirements include:
Tensile strength/shear modulus:
Other sensors requirements may include high temperature relaxation/creep resistance (clamp force retention); usage temperature range from -40°C up to 70°C, peak temperature of 90°C; and part integration feasibility.
DSM’s material solutions meet these key requirements as per technical and commercial requirement. For example, Arnite® can be used for pressure sensor in air conditioners or air flow sensor in refrigerators, and Akulon® has been used for sensor bobbins in washing machines. There are other potential applications (in the automotive industry) where these materials can be used for moving parts like wheel speed sensors, water level/ temperature sensors, position sensors and air intake sensors.
Business Development Manager
13 May 2020
To offer a drop-in solution to overcome the PA66 shortage, we developed an alternative material: The Akulon IG series is a portfolio of material grades made by combining the strength of PA6 and PA46 – two materials that are fully independent of the Adiponitrile/hexamethyldiamine supply.
A number of e-scooter components require specialized materials to ensure safe and reliable performance. DSM’s portfolio includes materials designed to meet the specific needs of these applications.
DSM's Arnitel family of thermoplastic elastomers is helping tire manufacturers "reinvent the wheel" by developing non-pneumatic tires.
Business Development Manager
Sanjay Singh is Business Development Manager at DSM Engineering Materials, responsible for leading growth programs across all industry segments. For more than nine years, Sanjay has held a variety of customer facing roles at DSM in sales and marketing. He has been awarded with the Best Project Management award across Asia for his work on a metal to plastics project. Prior to his DSM career, Sanjay worked for 13 years in the manufacturing industry in processing and application development. He earned his bachelor’s degree in mechanical engineering with a specialization in plastics engineering.
Leave your e-mail address below to start receiving the latest news about plastics, new products and events delivered to your inbox.