The History of Automotive Repairs – Why We Need Trained Technicians in the Collision Repair Industry

Vehicle History Overview

  • They don't make them like they used to.

The First Cars

  • The first motor cars were nothing more than a buggy and engine (Generally repaired by blacksmiths and carpenters. These cars were very expensive, which only the wealthy could afford)
  • Model T was the first car mass production on an assembly line in 1908 (Ford's Vision was to produce an affordable car the average person could purchase)
  • Model T's came in black only to keep the costs down. (The price came down once the assembly line was streamlined, but in 1908, the cost for a Model T started at $ 825. By 1913 the cost of the car reduced to $ 550)

Cars in the 1960s

Cars were made the same basic way up through the 60s

  • Body Over Frame
  • Rear Wheel Drive (Same concept, but the cars were very big, bulky, and heavy)

Except people in the 60s wanted SPEED! They achieved this with Big Block Motors, which created a lot of Horsepower. (The Birth of Hotrods, Rat Fink, Flames, and Pin Striping).

Cars in the 1970s

  • The government place strict fuel economy and emissions control laws
  • Customers demanded cars with increased fuel economy
  • New laws and customer demands started the automotive explosion of engineering ideas and changes in the automotive industry

Changes to comply with Demands and Laws

  • Smaller bodied cars and smaller engines
  • Aerodynamics (Increase Fuel Mileage)
  • Lighter cars by using different materials and designs
  • More work-hardened areas created during formation of panel (Body Lines)
  • Safety

Construction of Interstate Highways + Higher Speed ‚Äč‚ÄčLimits + More High Performance Cars = Accidents and More

Deaths from Auto Accidents

Federal Laws were passed to regulate safety. These laws included:

  • Installation of seatbelts
  • Safety glass windshields
  • Head restraints
  • In 1979, the first driver side airbag was introduced
  • Airbags are mandatory in motor cars produced after 1990
  • Unibody Torque Boxes: Allow controlled twisting and crushing
  • Crush Zones: Made to collapse during collision (To act as an absorber, absorbing the impact)

Modern Day Cars

  • Carbon Fiber Parts
  • Aluminum Parts
  • More Plastic Parts
  • High Strength Steel
  • Boron Steel
  • Unibody Construction
  • Space Frame Construction
  • Computer
  • Hybrid Cars

Now they even have cars that will tell you when you're lost, where to turn, Parallel Park for you.

Conclusion

While the modern day cars appear to be made cheap and unsafe, they are actually designed to crush or collapse, while transferring the energy around the stronger passenger compartment to protect the passengers from injury.

There is considerably more damage to modern day cars during a collision than the older vehicles, which gives the perception that "they don't make them like they used to". However, in reality the cars are taking the impact instead of the passengers.

The lesson was designed to give you a little history, but to also emphasize that just a hammer, dolly and a few wrenches are not going to repair today's cars. We need highly trained collision repair and automotive technicians to repair today's vehicles.

5 Connectivity Trends That Will Shape the Future of the Automotive Industry

Innovation is already behind the wheel of the modern automobiles. Yes, smart connectivity is now shaping the automotive sector in a never before way. While some of these technologies are already on the verge of becoming mainstream, there are other technologies that are just on their nascent state and are on the making. Most automotive management services predict that together these technologies will shape the future of the connected automobiles of the future.

Here are the 5 trends that will shape the future of the connectivity in automotive industry.

1. Self-driving cars

Self-driving cars that can run on the road without the intervention of the driver behind the wheel is already a reality with several automakers having come with their respective models of such cars. Already out through several successful test-runs Driverless cars truly holds the future of the automobile in the world. But according to expertise of leading automotive management services, driverless cars in spite of being already a reality, still a decade or so is required for such cars to become public and hit the road as regular vehicles.

2. AI-powered car infotainment systems

The infotainment systems of the modern cars are increasingly getting powerful and responsive and already they are all apt to respond to most regular commands including voice commands. The AI-powered virtual assistants will rule the future car infotainment systems of the cars to respond to passengers and driver in more responsive ways. AI is supposed to be introduced in the car infotainment systems of the future cars in just one or two years from now.

3. Blockchain-Powered Maintenance and Repair

We all are aware how the counterfeit car parts cause performance failure and in the long run damage vehicles. But as of now, in many countries to prevent such counterfeit parts entering the market there is no trusted system in place. In this respect, Blockchain based maintenance and repair mechanism can really play a revolutionary role in authenticating car parts. Blockchain which as a distributed ledger system allows no deletion or tampering of data while offering open and widespread access to data can actually help to authenticate car parts through an easily accessible distributed ledger of car parts.

4. Vehicle-to-Vehicle Connectivity

Vehicle to Vehicle connectivity commonly referred to as V2V technology allows cars on the road sharing information and keeping in touch with each other. On the road, a car can share information concerning speed, traffic, road conditions, any dangerous threats, etc. Automotive management services maintains that such V2V communication not only dramatically improves car safety and security it also actively helps cars avoiding routes that may take longer to reach the destination because of the heavy traffic. Already some cars are having a better in-car communication system and there are already highly equipped fleet management systems in place. All these together will shape the fully equipped Vehicle to Vehicle connectivity system of the future.

5. AR powered maintenance

Augmented Reality technology which already penetrated many industries and niches because of the unique capability of integrating the digital interaction to the real world around. Just like finding the digital game character of Pokemon in a popular AR game like Pokemon Go in an AR powered vehicle repair and maintenance environment the servicemen can render their services with guidance from a digital interface showing each and every part of the car.

A service engineer being able to see the entire car starting from the car seats to the interior features to the engine and bonnet can easily have a guided experience in repairing the entire car. This will help the car industry saving huge on maintenance and services. For customers also, this will ensure more precision, timely service and longer durability of the vehicle.