Have you ever wondered how technology is transforming the aircraft parts supply industry? Today in this blog by Sentinel Aerospace, we will teach you about the supply industry of aircraft parts, the role of technologies and their effectiveness, and how to achieve end-to-end transparency and predictive maintenance.
The integration of technology in the aircraft parts supply industry is another area experiencing a great revolution in how the industry is being run. Much of the work done in managing inventory in the past relied on paper, pencils, and manual effort, and that is quickly changing. Inventory management software can be used today to track parts in real-time and provide accurate information about stock positions.
Sophisticated computations, algorithms, and artificial intelligence are associated with such systems. They use past facts and existing trends to estimate future customers’ requirements with a selective error level.
The system can predict the demand for various spare parts, and this feature is useful when ordering spare parts for Airbus aircraft and also Boeing aircraft.
Increased demand forecasts thus allow suppliers to overcome problems associated with either having accumulated too much inventory or not enough of it and incur additional time and costs.
Automation also extends order accuracy by fulfilling the orders that the customers have placed. Conventional procedures sometimes required manual data keying, which entailed several challenges associated with human errors.
Automation means that the number of errors is minimized while the time spent processing is greatly decreased. Such advancements make it easier to provide parts for assembly in the right quantity and in the shortest time possible, thereby reducing the time taken within the aircraft parts supply business.
Improved Transparency and Traceability during Aircraft Parts Supply
Technology has also enhanced the tremendous advancement of the aircraft parts industry regarding transparency and traceability. Undoubtedly, the most prominent of them is the block chain.
The block chain establishes an open ledger that increases transparency and cannot be changed for each part of the supply chain. For this reason, stakeholders can substantiate the genuine origin of the part, thereby meeting safety and correct standards.
Concerning aircraft parts, Airbus aircraft parts, and Boeing aircraft parts, it is critical to develop the concept of traceability. Each one must conform to the legal conditions and be of high quality.
This way, each part is traceable from the point of production to the end of delivery, and it is possible to ensure each part is legal and has not violated any regulations.
This gives manufacturers better traceability for the original and genuine spare parts, making it difficult for fake products to find their way into the aircraft supply chain and enhancing safety.
Punctual data exchange is another advantage that is inseparable from technological development. It must be noted that modern systems allow for proper communication between manufacturers, suppliers, operators, and others.
By doing so, one can state that, owing to the active flow of information, all the participants in the process possess as much relevant and updated information about each part as possible.
Increased openness does not only benefit stakeholders in terms of increased confidence but also in terms of remedying any problems that may occur in the aircraft parts supply industry.
It has also transformed quality assurance, control, and predictive maintenance in the aircraft parts supply industry. It is now possible to have sensors and Internet of Things (IoT) devices built into an aircraft part and then monitor the part’s condition all the time.
This kind of sensor is used to gather data concerning different characteristics, including temperature, vibration, and pressure, which may be analyzed by identifying critical faults and their early signs.
We have the next step to this now: predictive maintenance, AI, and machine learning. Current AI algorithms use data captured by sensors on the machines to determine patterns that require a change of spare parts.
This is a proactive approach that enables one to have the chance to attend to minor problems before they graduate to become big issues, therefore easing the amount of time one has to face a complete system failure.
In the case of Airbus aircraft parts and Boeing aircraft parts, it implies that the constituents may be repaired or changed before they can cause severe inconvenience.
Under predictive maintenance, the aircraft parts supply industry would be right to boost the durability of aircraft parts. It enhances safety while at the same time cutting general maintenance expenses.
It also means that many previously unforeseen problems would become far less disruptive and costly for both parties—the supplier and the operator.
The aircraft parts supply industry is undergoing a substantial change, ignited by the growth of technology. In ways ranging from minimizing operation costs to increased organization and better quality assurance, these innovations are altering how parts are dealt with and acquired. Newcomers to the industry, like AI, block chain, and IoT, are already changing the face of the industry and making it more efficient and transparent.
With the help of these technologies, the Airbus aircraft parts and Boeing aircraft parts supply industry is in a good position to meet today’s market needs in the aviation industry. Organizations should be able to have parts when required, trace the flow of the supply chain, and meet quality and safety standards. In doing so, this alteration is dual in function and advantage—it provides a more adaptive capability to the company. It elevates the safety and stability level within the aviation industry’s overall context.