Aerospace Aviation 360 Blog

Printed Circuit Boards (PCBs) are the backbone of modern electronic devices, allowing various components to be connected while ensuring the flow of electrical signals. PCB connectors are components that play a crucial role in enabling these connections, making them an essential part of any electronic design. In this blog, we will briefly cover the subject of PCB connectors, exploring their types, applications, and the significance they hold in the world of electronics.

When it comes to machinery, bearings are crucial elements of assemblies that allow various components to move smoothly and efficiently. These critical components, typically made of bearing steel, can be found in various types of machinery, ranging from household appliances to heavy-duty industrial equipment. With this in mind, maintaining employed bearings is essential to ensure the longevity and optimal performance of your machinery, requiring one to understand how to best carry out such processes. In this blog, we will explore some essential tips for bearing maintenance, including different types of bearings, how to handle bearings, and the use of bearing pullers.

In the realm of mechanical engineering, bearings play a pivotal role in facilitating smooth rotation and reducing friction in various machinery. These crucial components are available in a wide range of types, each designed to fulfill specific requirements and challenges. In this article, we will explore some of the most common types of bearings, including pillow block bearings, spherical roller bearings, plain bearings, and tapered roller bearings. By gaining insights into these different types, you can gain a solid understanding of their mechanisms and applications.

Gas turbines are some of the most frequently used devices for powering modern vehicles. They convert the potential energy of gas into mechanical energy in the form of the rotary movement as well as electrical energy. As such, gas turbines are used in gas-powered vehicles in tandem with other machinery to thrust them forward and power their electronics. In this blog we will be discussing the different parts of a gas turbine and how they work in harmony to create the combustion engine in many of our modern vehicles.

For many industries that rely on power plants to operate, gas turbines and gas engines are both efficient options for generating power. For combined heat and power devices as well as co-production CHP installations, both gas turbines and gas engines prove reliable and are used across various industries. Manufacturers and people in industries such as textiles, food processing, petrochemical refining, pharmaceuticals, electric utilities, and refining rely on one of these two power sources for their distributed generating systems. The quality of gas turbines and gas engines alike have improved over the years, yet for every application, one choice is superior to the other. This blog will explore the defining features and differences between gas turbines and gas engines so you are informed when purchasing a power source. A few distinguishing factors to consider include usage amounts, functionality, & performance.

Aircraft structures have changed drastically over time. If you looked at a Wright Flyer side by side with an SR-71 Blackbird, you’d be hard-pressed to find a single structural similarity. Incredible achievements have been made in aviation since the dawn of the 20th century. This blog will take a look at the history and evolution of aircraft structures.

Safety is the highest concern in the aviation industry, with every rule, law, and procedure motivated by the desire to increase protections for the passengers and cabin crew of every flight. Given the inherent risks of flight, adherence to these standards must be unrelenting and absolute. 

Modern aircraft are made of numerous metal components, and those components obviously need to be held together. The body panels must be attached to the skeleton, the wings to the fuselage connector, and so on. There are several different methods for holding metal parts together, such as riveting, bolting, brazing, and welding. The purpose of all of these processes is to produce a union that is as strong as the parts that are joined.

When looking at the flight path of an aircraft between two points on earth, one will quickly realize that the path that the aircraft takes to its destination is never straight, rather being an arc across the globe. While one may think that this is an inefficient choice that will lead to higher costs and lengthier flight times, there is actually a very good reason as to why this is done. To put it simply: aircraft fly across the globe in an arc due to the curvature of our round planet.

Aerospace, aircraft, and aeronautics are industries that are inherently innovative, pioneering new technologies and streamlining production constantly. On that note, there are still many ways these industries can optimize but probably have yet to think of. Valley Box Co. from San Diego, CA compiled a list of a few such ways.