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THIN LAYER: UNMATCHED PRECISION

The development of SMD’s proprietary thin-film process technology has generated economic and performance benefits, enabling UNMATCHED PRECISION the company to expand its served applications to include medical, industrial,  and process control applications.

Many advantages of thin-film deposition:

One of the main advantages is the true molecular bonding between the fixture and the deposited strain sensing films. This interface is devoid of organic matter and oxygen which could absorb moisture or react over time. Sputtered thin pressure sensitive film gauges are resistant to the difficulties of organic support materials discovered in bonded sheet pressure gauges. The lack of also means that high-temperature operations up to 250°C are within reach of these devices.

Thin-film strain gauges are deposited directly onto sensing devices (eg, pressure diaphragms or load cells) in a sputter vacuum deposition chamber. The spray system also provides process control so that films can be deposited with good repeatability from batch to batch. Good and tighter control of bridge strength and zero balance is routinely achieved in production than is possible with conventional strain gauges.

One of the main advantages is the true bonding between the fixture and the deposited strain sensing films. One of the main advantages is the true bonding between the fixture and the deposited strain sensing films. This interface is devoid of organic matter and oxygen which could absorb moisture or react over time. Sputtered thin gauges are resistant to the difficulties of organic support materials discovered in bonded sheet pressure gauges.

Good pressure sensors UNMATCHED PRECISION

The lack also means that high-temperature operations up to 250°C are within reach of these devices This good interface is devoid of organic matter and oxygen which could absorb moisture or react over time. Sputtered thin gauges are resistant to the difficulties of organic support materials discovered in bonded sheet pressure gauges. The lack of resources also means that high-temperature operations up to 250°C are within reach of these devices

Technology and UNMATCHED PRECISION

It has been utilizes for a lot of years for the creation of ultra-stable precision devices is the pressure gauge technology of the future. Some of the most thrilling applications of pressure indicating film technology are in the health field.

One of the main advantages is the true bonding between the fixture and the deposited strain sensing films. This better interface is devoid of organic matter and oxygen which could absorb moisture or react over time. One of the main advantages is the true bonding between the fixture and the deposited strain sensing films. This interface is devoid of organic matter and oxygen which could absorb moisture or react over time. Sputtered thin gauges are resistant to the difficulties of organic support materials discovered in bonded sheet pressure gauges.

molecular bonding

One of the main advantages is the true bonding between the fixture and the deposited strain sensing films. This interface is devoid of organic matter and oxygen which could absorb moisture or react over time. Sputtered thin gauges are resistant to the difficulties of organic support materials discovered in bonded sheet pressure gauges. The lack of goods also means that high-temperature operations up to 250°C are within reach of these devices

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