Pneumatic and Hydraulic (Automation) Laboratory

The Pneumatic and Hydraulic Laboratory is designed to master student competencies in the field of automation, especially those that use pneumatic and hydraulic working principles. This laboratory is equipped with hydraulic and pneumatic equipment, which can be used by students to experiment using the principles of mechanization and automation of a series. It is hoped that students will be able to master the principles of automation which can be applied to machining processes and other production processes and as a valuable provision to enter the world of work with increasingly sophisticated technology.

Applied Mechanics Laboratory

Learning mechanics practicum using an applied mechanics laboratory. This Mechanics Laboratory specifically serves practice for Engineering Mechanics courses. Some of the experiments that can be carried out include: learning about forces, moments, pressure due to forces, the effect of gravity, and also analysis of calculations on the truss structure. It is hoped that students can master the main concepts of mechanics both theoretically and in practical proof and observation.

Materials and Processing Laboratory

The Materials and Processing Laboratory is a facility used for learning engineering materials. Knowledge of materials, especially technical materials, is something that is important for students as a consideration for carrying out the production and design process. The materials laboratory is equipped with various material testing instruments so that students can carry out various material tests such as hardness testing, microstructure testing, impact testing, tensile testing, carburising and casting.

Industrial Metrology Laboratory

Practical measurement techniques (industrial metrology) are carried out in the metrology laboratory. The Metrology Laboratory specifically facilitates the practice of Industrial Metrology courses, namely: calibration and measurement using calipers, micrometers, indicator dial calibration; measuring angles using angle decors and angle gauges; shaft straightness measurement; gear measurement; thread measurement; taper measurement; measurement of radius and measurement using sine bar and sine center; and surface roughness measurement. It is hoped that students will be able to master measurement skills to support their abilities and readiness to enter the world of work.

Physics Laboratory

To develop knowledge about physics, practical physics learning is carried out. The Physics Laboratory serves practice for the Physics course, in order to carry out experiments on the basics of physics including: the concept of pulleys, gears, springs, inclined planes and others, so that students can prove and learn theory and practice. In addition, the Physics Laboratory is also used by lecturers as a means of research for scientific development in the field of physics as an effort to improve the quality of basic science learning for students.

Maintenance and Repair Laboratory

Maintenance and Repair Laboratory is a supporting facility for the development of basic machine maintenance expertise. Laboratory. maintenance and repair serving practice for the course maintenance and repair of machines. In the machine maintenance and repair course students learn about an understanding of machine performance, structure and maintenance methods. Students carry out a direct practicum of disassembly, identification and inspection of machine parts and machine assembly. Machine maintenance is important in supporting the smooth production process.

Image and Design Laboratory

The Drawing and Design Laboratory is designed to facilitate students to master the basics and applications of technical drawing either manually or with computer assistance. The basic engineering drawing laboratory is equipped with 20 manual drawing desks to equip students with basic technical drawing skills. In the computer laboratory for engineering design, there are 20 computer units with special specifications so that they are very capable of running both 2D and 3D engineering design application software. Students can learn to draw from simple basic shapes to making complex component drawings, even making technical drawings for a machine / equipment which is a combination of several components consisting of 3D model images and 2D working drawings. Students can improve their technical drawing skills using software such as AutoCAD, Solidwork Professional or other 3D engineering drawing software. Learning is more complete with 3D printing tools.

Machining Workshop

This workshop is a facility that supports practical learning, especially in the field of machining, both lathe, milling, scrap and grinding machining. The equipment owned includes: 16 units of lathes, 7 units of milling machines, 8 units of scrap machine, 1 unit of cylindrical grinding machine plus 4 units of cylinders.