For a considerable amount of time, skilled mechanical engineers would weld the individual pieces of steel together to form their frames.

 

 

Item was founded by two friends named Gerrit Pies and Wolfgang Rixen, and their groundbreaking idea was to use screws rather than welds and aluminum rather than steel. The fundamental idea was that steel was no longer able to satisfy the ever-increasing demands placed on aluminium coil by specialized mechanical engineering. What was initially just a matter of experimenting with aluminum profiles that were created and used solely within the company ultimately developed into a comprehensive system. In the 1980s, the innovative and commercially successful modular MB Building Kit System got its start. But in the field of specialized mechanical engineering, what specific advantages does the use of aluminum profiles actually have over the use of steel?

 

Aluminum profiles, a material of the highest caliber

1. The benefits of using an aluminum profile system begin with the fundamental qualities of the material itself

2. Aluminum is a lot lighter than steel, but it still has a very high strength to weight ratio

3. There is no requirement for time-consuming protective measures because corrosion does not pose much of a threat to it

4. As a direct consequence of this, two common cost considerations associated with steel-regular maintenance and the application of corrosion protection-are rendered moot

5. In addition to these qualities, aluminum is exceptionally conductive, can be extruded, and is very simple to shape regardless of whether it is hot or cold

 

Mechanical engineering specialists who save time and money through their work

There are only three processes that need to be completed when using aluminum profiles in specialized mechanical engineering, and those processes are sawing, screwing, and assembling. Without any additional education or preparation, a single mechanic should be able to complete all of these steps successfully. In addition to this, specialized tools or a diverse assortment of machines are not required in any way. Because they do not have to rely on outside suppliers, businesses are able to keep a firm and complete grip on the pace at which the work is completed as well as its overall quality. Additionally, a building kit system that makes use of aluminum profiles helps to ensure that the engineering process goes off without a hitch. Innovative methods of fastening make it possible to make corrections to necessary adjustments that are only brought to light during the manufacturing process. These corrections can be made in just a few easy steps. Following a customer's request for a change or an adjustment, that change or adjustment can also be implemented in a very short amount of time.

In contrast, even the most straightforward steel constructions may involve as many as eight processes, including sawing, machining, fixing, welding, cleaning, priming, coating, and finishing. This has further repercussions, as the likelihood of making a mistake increases proportionately with the number of steps in a process. Because of this, the processing of steel always involves a large number of intermediate stages, all of which, in accordance with the 7 Muda of lean production, are considered to be wasteful. When individual processes are outsourced, quality assurance must be performed on the work performed by third parties, which consumes additional time and money. In the end, the low cost of procuring steel shouldn't be considered in a vacuum at all.

The technological advancement of aluminium profiles enables simple transportation.

Steel frames are responsible for the extreme heaviness and awkward portability that are characteristics of the systems they support. Steel frames are not simple to disassemble. Both of these are significant cost factors in the logistics industry. It is not unusual for there to be a sudden change in the amount of space available at the customer's location as well as the layout of the property between the planning and implementation stages of a project that involves the delivery of large items. As a result, the only choice available is to partially disassemble the project, which is an expensive procedure.

Aluminum's low density and low weight, on the other hand, make it an attractive material for use in transportation because it eliminates the need for large trucks and other costly modes of transportation. This opens up a wide range of direct advantages. The idea of an aluminum building kit system being modular also has a direct impact on the transportation and the processes that come after it. The additional flexibility that comes from being able to make rapid adjustments during unloading, moving, and installation on site really pays off when it comes to transportation and assembly. This is because being able to make these adjustments pays off. Elements that have already been preassembled, for instance, can be taken apart in preparation for transport and then reassembled with relative ease once the project has arrived at its final location.

Do you wish to stay abreast of all the fascinating developments that have recently taken place in the item world?

Then allow us to present you with the best option available. To subscribe to the item blog, just fill out the box located in the top right corner of the page.