Heavy-duty anchors are a specialized form of metal anchors. Their load capacity is almost unlimited in the interaction of the employed system and the compatible substrate. Heavy-duty anchors with enormous load capacity are used in industrial environments, such as machine construction. The following article provides information on the different types of heavy-duty anchors, their uses and fastening methods.

What makes a linear guide profile rail guide the first choice for precise and resilient motion control? In our blog, you will learn all about the design, the different versions, dimensional tolerances and the key parameters, such as running parallelism, preload and axial play. We show how these features work together perfectly to ensure the highest precision and durability – and how you can best match these components to your needs.

Manometers are instruments and devices used in metrology to measure pressure in a system. They are based on the physical principles of hydraulics or pneumatics.

The fastening mechanisms for linear shafts or guide shafts in mechanical systems require careful planning. Different shaft ends permit different mounting options. This article provides an overview of available shaft ends and answers the question of which shaft holders or shaft support options are available and where they are appropriate. As part of this, we also take a detailed look at the fixed and floating bearing types for shafts.

The tensile strength of steel and stainless steel is a critical parameter when it comes to the load-bearing capacity and safety of threaded joints. It is made up of two key parameters for steel screws based on which the tensile strength and the yield strength can be easily determined. But starting at a certain size, stainless steel screws and stainless steel nuts are marked with a letter-number combination (e.g. A4-80). The letter-number combination arranged in front of the hyphen assigns the screw so marked to a material group and steel group and thus provides information on the basic material properties of the screw. The number 80 to the right of the hyphen indicates the strength class. This article shows how to use the strength class of stainless steel bolts to determine their limits of use and provide an overview of the load-bearing capacity of typical strength classes.

This article covers the fundamentals of pneumatics, pneumatic circuits and pneumatic circuit diagrams. Pneumatics is an area of fluid engineering that deals with compressed air and its application in various systems. Pneumatic control technology is used in many industries and sectors, such as material handling, robotics, or transportation.

A linear drive converts rotational movements to linear movements and vice versa. Linear actuators are key components for motion control in many mechanical systems and mechanical engineering. Often, this conversion is needed to convert power and motion generated by motors and other rotating equipment into translation (linear motion). The drive is industrially realized with motors or also by hand. The article introduces frequently used and common concepts and lists the design criteria. Lastly, we will discuss examples for mechanical engineering applications.

Magnets are of great significance in industrial applications. They are used in a variety of applications, from electric motors to sensors and actuators. However, selecting the right magnet for a specific application requires a deep understanding of the magnetic properties, materials and design features.

A wide variety of raw materials and ancillary materials are used in industrial applications. Comprehensive knowledge of their material properties is an absolute prerequisite for using these raw materials for a defined application in technical environments. Hardness tests are a way to determine basic material properties such as hardness/ductility and strength of a material, such as steel. Hardness plays a critical role in the characterization and quality control of materials. The hardness of a steel provides information about its mechanical properties, wear resistance and suitability for specific applications. In this context, various hardness testing methods and scales have been developed to accurately determine and classify the hardness of steel. This article provides an overview of common hardness test methods, an overview of some of the heat treatment options for steel materials, the resulting Vickers hardness levels and their possible applications.