The new freedom for PICMA actuators using a novel manufacturing technology, now also multilayer actuators with internal holes or in unusual shapes can be produced. Learn more about this topic with the insights from Ali Partovi. Virtually any, even three-dimensional contours, finest drilling and textured ceramic surfaces are possible. Special milling process the sensitive ceramic films already in the Green State, so before sintering. Then, the individual layers are fitted with electrodes and laminated. How is the PICMA sets sintered ceramics in the co-fired process together with the inner electrodes. The result is a continuous ceramic insulating layer, with all its well-known benefits: the Piezoaktor is protected against humidity and has a high insulation resistance, allowing life of to conventional polymer insulated actuators is significantly increased. PICMA Piezostapelaktoren with additional internal bore are ideally suited for fiber stretching applications.
Piezo bending elements are also in various forms with and without holes possible. PI ceramic (PIC) is one of the world’s leading companies in the field of piezoelectric ceramics. Among others, the PICMA excellent for their reliability multilayer Aktortechnologie dating home PIC. Since 1992, develops and produces PIC Piezoelectric ceramic materials and components for standard and OEM solutions: Piezokomponenten, ultrasonic transducers, actuators, and system solutions. PI ceramic, a subsidiary of physics instruments (PI), has its seat in leather pants, Thuringia, Germany.
Cooperation at universities of applied sciences effective and successful work is done best in a balanced combination of theory and practice. This includes also a close partnership of several actors from different knowledge and application areas. So, different skills can bundle and achieve goals together. The cooperation of the universities of applied sciences with national and international universities, institutions, organisations and companies from the most diverse areas of scientific and economic benefit not only students and research, but also companies and organizations. Transfer between science and industry theory and practice form a strong partnership in which both sides their core incorporate at the universities of applied sciences: the universities provide scientific and research expertise, train also highly qualified junior staff, who are well positioned and perfectly trained for the future professional practice. Reverse control Companies and institutions by teachers with many years of experience problem and tasks from practice at. So be strong collaborations with regional and supra-regional enterprises, institutions and organizations that benefit from the innovation and flexibility of this application-oriented universities: the partners can designs and contract research using the scientific expertise of the universities and exploit the resulting practical projects and products, directly applicable concepts and research findings. Regardless of whether lecturers from the practice of enriching lectures to examples from the everyday or whether research projects will be implemented in close cooperation: Universities of applied sciences are the competent partner and make the optimum bridge between scientific and practical expertise. Universities of applied sciences everything. Out of pure theory.
Measurement without sensor technology today days unimaginable what sensors are used for? Most Ultrasonic sensors are used for level measurement with sensor technology. This type of measurement a very precise technique is how does the measurement with sensor technology? The sensors send ultrasonic waves in the direction of the tank contents. Ultrasonic waves are frequencies inaudible to humans. The sensor is a silent station. The peculiarity is that the ultrasonic sensor at the same time has the ability to receive waves. This explains also the function. The sound waves penetrate easily existing air into a tank.
The waves hit a liquid, they will be reflected. The waves arrive back at the sensor. On the basis of the duration between the sending and receiving of the waves, the ultrasonic sensor calculates the level. This calculation is done in a small integrated processor. What are the advantages of this technology? The advantages of this technology are obvious. An employee can easily on a computer check the level of several containers. This is a useful, if a tank or reservoir is filled, but also when it comes to a tank or reservoir must be non-empty.
Without this technique it took staff which are informed on the spot about the level. It was particularly important for the filling of a tank constantly to control, so did not overflow. Partly, an employee had to simultaneously control multiple levels. With Ultrasonic sensors, this is no longer a problem. Another advantage is the possible complete electronic record of levels without a manual transfer to the computer areas: the sensors can be used in all areas of a filling level measurement. This begins already in the agriculture, in the automotive sector continues through various other companies who rely on it. The sensors are used even in dairies. The images of overflowing milk tanks have disappeared almost from the scene. This list could you expand any. Almost everywhere, Ultrasonic sensors have a firm place.