Grinding Fluid Jet Characteristics and Their Effect on a Gear Profile Grinding Process

• Main Authors: Philip Geilert, Carsten Heinzel, André Wagner
• Format: Article
• Language: English
• Published: MDPI AG 2017-10-01
• Series: Inventions
• Subjects: profile gear grinding; grinding fluid; grinding fluid nozzle; jet breakup
• Online Access: https://www.mdpi.com/2411-5134/2/4/27

Profile gear grinding is characterized by a high level of achievable process performance and workpiece quality. However, the wide contact length between the workpiece and the grinding wheel is disadvantageous for the fluid supply to the contact zone and leads to the risk of locally burning the workpiece surface. For the reduction of both the thermal load and the risk of thermo-mechanical damage, the usage of a grinding fluid needs to be investigated and optimized. For this purpose, different kinds of grinding fluid nozzles were tested, which provide different grinding fluid jet characteristics. Through a specific design of the nozzles, it is possible to control the fluid flow inside the nozzle. It was found that this internal fluid flow directly influences the breakup of the coolant fluid jet. There are three groups of jet breakup (“droplet”, “wave & droplet”, and “atomization”). The first experimental results show that the influence of the jet breakup on the process performance is significant. The “wave & droplet” jet breakup can achieve a high process performance, in contrast to the “atomization” jet breakup. It can therefore be assumed that the wetting of the grinding wheel by the grinding fluid jet is significantly influenced by the jet breakup.