Tuesday, December 7, 2021

11 Methods to Extend The Life of Plasma Cutting Machine Consumables

Whether you are using the world's best quality machines and parts, the chances of them getting damaged someday are 100%. Of course, using good quality parts like esab plasma cutter parts will provide longevity to the machine parts rather than average quality parts, but maintenance is still necessary. People often don't apply for maintenance because of the higher costs it requires. But investing in effective methods to reduce losses is also a cost-saving method.

Here we have some commonly used method list you can apply to reduce the cost of plasma consumables as much as possible:

1. Use a Reasonable Cutting Height

According to the guidance of the instruction manual, you should use a reasonable cutting height. Cutting height is basically the distance between the cutting nozzle and the surface of the workpiece. When perforating, you need to use a value slightly higher than the perforation height in the parameter table.

2. Do Not Overload the Nozzle

Overloading the nozzle or exceeding the operating current of the nozzle will damage the nozzle. Also, the current intensity should only be 95% of the working current of the nozzle. For instance, the current intensity of a 100A nozzle should be set to 95A.

3. Ensure the Correct Flow Rate and Air Pressure of the Plasma

The correct flow of plasma and gas pressure are very essential to the service life of consumables. If the air pressure of the machine is too high, then the life of the electrode will reduce significantly. And if the air pressure is too low, then it will affect the life of the nozzle.

4. The Thickness of the Perforation Needs to be Within the Range of the Machine System

The cutting machine will not perforate the steel plate exceeding the normal working thickness. The usual working perforation thickness is half of the normal cutting thickness for the machine having configuration below 100A. For instance, the 100A system is set for cutting 1-inch carbon steel, then the working perforates should be 0.5 inches.

5. Keep the Plasma Gas Dry and Clean

The plasma system requires dry and clean plasma gas to work typically. Dirty gas usually creates a problem for the gas compression system. This will shorten the service life of consumable parts and will also cause severe damage. The testing method for the gas quality includes setting the cutting torch in the test state and placing a mirror under it to consume gas in the cutting torch. If the water vapor and mist appear in the mirror, then you must find out the reason and correct it as soon as possible.

6. Start the Cutting from the Edge

Instead of perforating, you should start cutting the materials from the edge as much as possible. If you will use edge as the starting point, it will help to extend the life of the consumable parts. Here, the correct cutting method is to directly aim the nozzle at the edge of the workpiece before you start the plasma arc.

7. Apply Splash-Proof Chemical Paint on the Protective Shell

The splash-proof chemical coating helps in reducing the buildup of slag on the protective shell. But you need to remove the protective shell from the torch before applying splash-proof paint.

8. Clear the Gas After Replacing Consumables

First of all, you need to replace the parts with good quality parts like esab replacement parts as per requirement for maintaining the quality of the final output. Once you replace the consumables, you should clear the gas. This is necessary for retaining the water and discharging the mist from the cut.

9. Remove the Slag on the Protective Shell

Removing the slag on the protective shell of the cutting torch frequently is necessary. Otherwise, it will create a destructive heavy plasma arc.

10. Keep the Cutting Torch and Consumable Parts Clean

Any dirt on the cutting torch or any consumable parts will strongly affect the function of the plasma system. While replacing consumable parts:

  • Place the parts on the clean flannel
  • Replace consumable parts with quality esab replacement parts
  • Place the parts on a clean flannel
  • Check the connection ribs of the cutting torch regularly
  • Clean the nozzles and electrode contact surface with hydrogen peroxide cleaner

11. Use Softened Water to Inject the Cutting Torch

Hard water can cause metal impurities to precipitate on the nozzle ring. And it will affect the airflow, reduce the torch quality, and shorten the life of consumable parts.

The primary key to maintain the machine parts is to invest in good quality parts like the esab plasma cutter parts. And then you can maintain them as per your budget and usage.

Source: https://altpartsinc.wixsite.com/altpartsinc/single-post/11-methods-to-extend-the-life-of-plasma-cutting-machine-consumables



Tuesday, November 23, 2021

6 Tips For Improving Plasma Cut Quality

 No matter if you are using a plasma cutter for DIY projects or heavy fabrications, you need to be efficient when it comes to quality cutting. Though plasma cutting is a user-friendly machine, there is still more to meet the eyes. - such as improving quality cutting, maintaining consumable parts, and improving overall efficiency.

You also need to take care of gas and air using in the plasma cutting. For this, you can take the help of Hypertherm hpr260 parts or Hypertherm hpr260 consumables. Below are some other tips you can follow to improve plasma cut quality.

Select Right Plasma Cutter

There are several factors to consider when purchasing the plasma cutter. What is the capacity of the plasma cutter, what are its purchase and operational costs, duty cycle, and much more? Think about the duties you will perform while selecting the machine and select the one that suits your needs.

Here are some questions you can ask yourself:

  • Do you need a portable plasma cutter?
  • What is your budget?
  • What are the materials you need to perform the plasma cutting?
  • How often will you use the plasma cutting machine?
  • Will you use generators or local power outlets to power your machines?

Setup Machine Properly

Plasma cutting uses electrical energy to cut the materials. The electric charge melts the surface of the metal, which is why it is mandatory to protect the user and the plasma cutter unit. Lock the ground clamp to clean metal only. If necessary, grind off the rust as it can disrupt the flow of electricity. It's also essential to keep the clamp as closer to the cut area as possible.

It is also necessary to replace the worn spots, cables, loose connections, or anything that disrupts the flow of electricity. Ultimately, for getting the final results, it is crucial to use the correct tip. The right tip can cut the material more efficiently and save your time and money.

Practice Your Cuts

The first cut is significant for any cutting project. Without dragging the trigger, go over the path you want to cut. Practice the movement to make sure you are on the right track. It also gives the freedom of movement to make one continuous cut. If you stop and start again from the same spot, it can create irregularities in the cut.

You can also do a sample cutting on the type of material you are going to work on. This will ensure you are using the correct settings and cutting speed.

Watch the Travel Speed

More the speed of your plasma cutter, more cleaner the cut it will create. When cutting the thicker material, set the machine to the full output and change your travel speed. On thinner material, turn down the amperage and change to lower-amperage tip to keep up the narrow kerf.

With a proper travel speed, the arc should exit the material at a 15 to 20-degree angle opposite the direction of travel. If the plasma goes straight down, it means you're moving slowly. If it sprays back, it means you're moving too fast.

Traveling at the right speed and with the right amount of heat will produce a very clean cut with less dross at the bottom of the cut with no distortion to the metal.

Checkout the Consumables

If the tip becomes worn, the quality of the cut will be affected, so regular inspection is a must. If the tip becomes irregular or develops a pit, discarding is a better option.

The consumables will wear with each cut, but factors like moisture, cutting of extensively thick materials, or poor techniques will increase the wear and tear of consumables. The best exercise is to replace the tip and electrode together for optimum quality cuts.

Make sure not to over-tighten the parts as it moves to create an arc, so only finger tighten the cap. Also, use high-quality consumables like Hypertherm hpr260 parts and Hypertherm hpr260 consumables.

Check Air and Gas Quality

Are you using air plasma? Then make sure your air is dry and clean. The same goes with your gas when using oxygen or a multi-gas system. Always use high-quality gas and the appropriate sized gas lines and regulators. Look over to see if the gas is leaking or any flow is restricted. If needed, consult your gas distributor for help.

Conclusion

Unboxing the plasma cutter might be easy, but it will take time to familiarize yourself with the proper operation. By going through the above tips, you can surely improve the quality of your plasma cutting. Apart from that, have a regular inspection of your cutter parts and consumables to avoid any mishappening.

Source: https://altpartsinc.wixsite.com/altpartsinc/single-post/6-tips-for-improving-plasma-cut-quality


6 Tips to Enhance the Laser Cutting Process

 Laser cutting is an amazing manufacturing process mainly used by engineers in the manufacturing industry. Laser cutters use a focused beam to pierce a material specified by the designers.

Apart from cutting, laser cutters can also raster onto a workpiece by heating the surface of the workpiece. This process makes the prototyping quick.

Laser cutters are a convenient tool for prototyping and manufacturing; they are mainly used in machine shops on an industrial scale to cut huge pieces of materials. They are also used to create cheap and quick prototypes.

Also, laser cutters produce harmful fumes that are very risky. One way to reduce the risk is by using good quality parts like Bystronic laser parts or prima laser parts. Here are some other tips you can use to enhance your laser cutting.

Select a Software and Master it

Do you use Adobe Illustrator? Or are you handy with CorelDraw? There is no software that's the best, but if you like one, just stick to it.

There are many design software that supports laser cutter drivers. Such software are pretty standard among the 2D designs or some 3D designs. Here are a couple of software that you may already be familiar with or you may want to try out.

2D Design:

Inkscape: Open source software and free to use

CorelDRAW: Graphic design software with a huge number of tools and features

AutoCAD: Drawing software, primarily used by engineers and architects

Adobe Illustrator: Graphic design software for high-quality designs

3D Design:

SketchUp: 3D designing software comes with 30 days free trial

SolidWorks: 3D design software with multiple design package

Autodesk Fusion: Cloud-based platform for manufacturing process

Settings of Laser Cutting

Before performing the laser cutting process, it is good to know the settings of it. A laser cutter comes with primary settings as per the above image. The power represents the strength of a laser. Speed is how fast your laser will go. If it is too quick, it may not cut all the way, but a low speed can lead to melting or burning. So most of the time, you can stick to the moderate settings for the cutting to be fine.

Frequency determines the laser pulses during a cutting operation. The higher the frequency the cleaner the slash would be. But it is also okay to keep the frequency low to prevent flammable materials from catching fire.

Use the Quality Spare Parts

When it comes to laser cutting, lasers majorly depend upon the consumables and parts. So whenever you are using any part or replacing it, make sure you are using top-quality parts. Bystronic laser parts and Amada laser parts are some of the best ones.

Amada and Bystronic parts come in a variety of ranges like focus lenses, nozzles, lens wizards, and much more.

You can also check out other brands such as Hypertherm, Mitsubishi, Mazak, Prima, etc.

Know the Material You Are Using

While designing with laser-cut, you should start thinking about what materials you will work upon. Are you designing a prototype? Then you should consider cheap materials like cardboard. Else you can use wood or any other metal.

Talking about wood, type matters! Wood could be soft or hard. A harder wood can produce a darker appearance than a softwood.

Another common material is acrylic. It is more fragile than wood. So be mindful of the spacing between the lines. To keep acrylic material nice and clean, putting on protective tape is the best way to go.

Types of Laser Cutters

There are three types of laser cutters:

CO2 Lasers: The generated lasers have stimulated gas mixtures (majorly consists of carbon dioxide). CO2 is one of the most common types of laser cutter because it is inexpensive and can cut most materials like leather, acrylic, glass, wood, plastic, etc.

Neodymium Lasers: The laser consists of neodymium doped crystals. These lasers have small wavelengths as compared to CO2 but they are highly intensive. Which means they can cut through much thicker materials like plastics, metals, and some ceramics.

Fiber Lasers: The laser is usually doped with rare-earth elements such as erbium, dysprosium, and holmium. The laser has a wavelength similar to neodymium lasers. But they are built in such a way that they require less maintenance and can cut materials like metals and plastic.

Though they look very similar, they are distinct in terms of power or how they cut materials.

Thickness of Materials and Kerf

The focal point of the lens of the laser cutter cuts the material. On the other side of the material, the laser isn't as focused and the beam is slightly larger as compared to the focal point. This gap that the laser makes is basically known as kerf.

For example, the kerf on the saw blade is usually a rectangle. The laser cutter's kerf is slightly trapezoidal because the laser beam gets wider after its focal point. The kerf of the given laser determines the maximum thickness of the material it can cut. Because the laser will get thicker after its focal point. When the beam is thicker, then it is unfocused to cut it well.

Time to Cut

Now you might be ready to cut the material. It can take a few tries to find the ideal settings to cut your materials. Also, don't lose hope if your first few projects don't turn out to be successful. Keep in mind the above tips and use good quality consumable parts like the Bystronic parts. If you are happy with the results, don't forget to note them down for future reference.

Source: https://altpartsinc.wixsite.com/altpartsinc/single-post/6-tips-to-enhance-the-laser-cutting-process

Wednesday, November 17, 2021

Checklist for Preventive Maintenance of Different Machine Parts

 Preventive maintenance of machines and its every part is essential to ensure good quality output. By keeping a check on the machine parts, one can easily know if there is any problem and can subsequently prevent it from occurring. This way, you can save the final output from getting damaged. You just need to replace or change the worn-out machine parts with the new one. Take care of gas pressure maintenance too. Parts like Hypertherm hpr260 parts and hypertherm hpr260 consumables can help you in that. 

Checklist for Preventive Machine Maintenance

1. Clean the Torch Body

  • Remove the torch parts to examine the inside part of the torch.
  • Check if there is any sign of mechanical damage to threads.
  • Clean the inside part of the torch with an electrical contact cleaner and a cotton swab.
  • Disconnect the torch from the mounting tube and slide the tube back to see the torch-lead fittings.
  • Check if there are any leakages or any damage to any of the connections.
  • Blow out any accumulated metal dust inside the torch

2. Clean the Torch Leads

  • Wipe down or blow off the full length of the torch leads for removing the accumulated metal dust and dirt. Metal dust causes dissipation of the high voltage required to start the plasma arc.
  • Check for kinked or worn hoses, cracked fittings, exposed wires, or other damage.
  • Check high-frequency shielding to form a proper connection to earth ground.

3. Clean Out the Power Supply

  • Blow out all the accumulated metal dust using clean, dry air. Because metal dust can cause damage to power-supply components, especially to the PC boards. Even the contactors, relays, and spark-gap assemblies can malfunction due to excess buildup of metal dust.
  • Check all the air filters on the power-supply housing and replace if necessary.

4. Check Torch-Cooling Components

  • With water-cooled torches, you should check the coolant stream in the tank for signs of reduced flow or aspirated air. Ensure that the return flow is set at the specified gallons per minute. Check if the flow switches of the return line are functioning properly as insufficient coolant flow causes the torch to overheat.
  • Check if the coolant filters and pump screens function properly. Also, clean or replace if necessary.
  • Check coolant resistivity by a conductivity meter. Resistivity should not exceed more than ten micro-ohms for most of the systems.
  • Flush and replenish coolant every six months.

5. Check Water Quality

  • Secondary water quality is essential with water-injection torches. Water hardness should not exceed more than 8.5 ppm or 0.5 grains. Because hard water causes mineral deposits to build up on nozzles which leads to shortened life.
  • Use a commercial water softener if required. Water quality in water tables is crucial. Because the water in the table is heavily contaminated with metal dust or slag, it can cause the hard-starting of the plasma torch. It may even cause rust accumulation on the cut pieces.

6. Check Plasma

  • Gas quality is crucial and tricky to maintain good parts life and serve good cut quality. For this, hold a clean paper towel under the torch and start purging air through the system in the test mode to check air quality.
  • Check for excess water, oil mist, or particulate contamination and clean if you find any.
  • Check filters weekly and empty moisture traps whenever they start to accumulate water.
  • Also, make sure the gas quantity is neither more nor less than required. For this, you can use consumables like Hypertherm hpr260 consumable to ensure the gas quantity.

7. Clean Machine Components- Rails, Racks, Gears

  • Use an abrasive pad and a degreasing agent to remove grease, dirt, and metal dust.
  • Lubricate gears with a dry lubricant like graphite powder. If bearings have grease fittings, lubricate them too.
  • Do not lubricate any rail sections as lubricants will attract contaminants that lead to excessive wear.
  • Level and align rails.
  • Check joints where the rail sections meet with a piece of tool steel for checking if it is not misaligning. Rail alignment will prevent any drag on drive motors. Distances between the rails should be kept constant across the entire length of the system.
  • Align and adjust gears and bearings.
  • Avoid the gears overlapping above or below the rack.
  • Adjust gear alignments to remove ply between racks and gears. Make these adjustments for cross drives and rail and both. Alignment bearings need to have minimal ply between them and rail surfaces. These bearings are mostly mounted in an eccentric shape.
  • Adjust them until no light is seen between the bearing and rail surface. Remember to not over-tighten the bearings.
  • With drive gears disengaged, you need to roll the beam across the rails to check for binding. Adjust it accordingly until the beam rolls with little resistance and minimal vibration.

8. Check Safety Limit

  • Ensure operator safety with preventing damage to the machine. Check the machine to each limit even test the switches.
  • Inspect mechanical stops to ensure that they are in proper working order.

You can keep this checklist with you as a detailed guide to check machines regularly. This guide is to ensure that you do not miss any of its parts. Hypertherm hpr260 parts, powermax65 parts, Hypertherm hpr260 consumables, plasma cutting consumables, plasma cutting torch, etc., are some of the parts you can consider while replacing or changing machine parts.


Source: 

https://altpartsinc.wixsite.com/altpartsinc/single-post/checklist-for-preventive-maintenance-of-different-machine-parts

Monday, October 18, 2021

8 Different Types of Welding Methods

 When you start learning to weld, it may be overwhelming to take in the sheer amount of information available on the subject. It may be challenging to begin a fixing journey without knowing all the necessary information about the same.

 

Before starting your welding business, you need to know the types, processes, what and how it affects the metal, etc. But no matter which method you choose, the types of consumables used in it will affect its longevity and final output. So, using good quality parts like Hypertherm powermax 45 consumables and Hypertherm powermax 45xp parts is advisable. Thus, to guide you with the same, we have following article explaining the types of fixing processes:

 

MIG - Gas Metal Arc Welding (GMAW)

This is a simple form of fixing that is easy for any new welder to perform and practice. MIG stands for inert metal gas and it is also sometimes called gas metal arc fixing (GMAW). It is a quick welding process that involves the filler metal being fed through the wand. Here, the gas expels around it to shield it from outside elements. This means it is not great for outdoor use. But still, it is a versatile process and can be useful to weld many different types of metal with different thicknesses.

 

The filler metal is usually a consumable wire fed through a spool. This filler metal also works as an electrode. Whenever the tip of the wire creates an arc to the base metal, the wire melts and becomes filler metal and creates weld. Then the wire is continuously fed through the wand, allowing one to dial in your preferred speed. If done correctly, MIG welding produces a smooth and tight fix which is visually appealing.

 

TIG - Gas Tungsten Arc Welding (GTAW)

TIG welding is also known by the names of Heliarc and gas tungsten arc welding (GTAW). Here, the electrode is non-consumable and made of tungsten. It is one of those types of welding process that one can complete with no filler metal.

 

One just needs to use only the two metals that need welding together. A gas tank is essential with TIG welding for providing the constant flow of gas. This gas is necessary to protect the weld. This means it generally performs better indoors.

 

TIG welding is a precise process of welding. It creates visually appealing welds and does not require cleanup because there is no spatter. Due to these traits, it is best reserved for experienced welders.

 

Flux-Cored Arc Welding (FCAW)

This is similar to MIG welding. Just like in MIG fixing, in flux-cored arc welding, a wire that serves as the electrode and the wand is useful to feed the filler metal. Now let us come to the difference - for FCAW, the wire has a core of flux which creates a gas shield around the weld. This shield eliminates the need for an external gas supply.

 

Since it is a high-heat welding method, FCAW is better suited for thicker and heavier metals. It is often useful for heavy equipment repairs for this very reason. It is an efficient process that does not create much waste. Since there is no need for external gas, it is also low in cost. Though there will be a bit of slag left over which will need a bit of cleanup to make a beautifully finished weld.

 

Laser Beam Welding

This type of welding is useful on metals or thermoplastics. And as the name implies, this method involves using a laser as a heat source for creating the welds. One can use it on carbon steels, titanium, stainless steel, aluminum, and HSLA steels.

 

It easily automates with robotics and is therefore often useful in manufacturing, like in the automotive industry. And when we talk about the automotive industry, precision is a must. Thus, using quality parts like Hypertherm powermax 45xp parts can save you from messing up the final output.

 

Electron-Beam Welding

This is a method of welding where a high-velocity beam of electrons creates heat through kinetic energy by welding two materials together. Electron-beam welding is a highly sophisticated form of welding performed by the machine, usually in a vacuum.

 

Plasma Arc Welding

This welding method is similar to GTAW, but it uses a smaller arc than GTAW. This increases the precision of the weld. It also utilizes a different torch to achieve much lower temperatures. Gas is pressurized inside the wand to create plasma. The plasma then goes through the ionization process by making itself electrically conductive. This produces an incredibly high temperature that is capable of melting the base metals. This allows plasma arc welding to perform with no filler metal which is a similarity to TIG welding.

 

Atomic Hydrogen Welding

This is an extremely high-heat form of fixing, known as arc-atom welding. This welding method involves using hydrogen gas to shield two electrodes made of tungsten. This shield can reach temperatures above those of an acetylene torch. Also, it can perform with or without a filler metal.

 

Electroslag

This is an advanced method of welding used to join the thin edge of two metal plates together vertically. Instead of applying the fix to the outside of a joint, it will take place in between the edges of the two plates. Here, a consumable metal guide is useful to feed copper electrode wire. This later acts as filler metal.

When electricity generates through the metal, it creates an arc and then the weld begins. It begins at the bottom of the seam and it gradually moves up. This creates the weld in place of the seam as it goes. This is an automated process performed by machine.

 

Conclusion

Hopefully, now you have a basic understanding of the different methods of welding. One can perform some types easily through machines while some require expensive specialty equipment. Also, the quality of consumables that you use in your fixing method also affects your overall budget and result.

So, you should invest in quality consumables like Hypertherm powermax 45 consumables to secure the quality of outcome and save repair costs.


Source: https://altpartsinc.wixsite.com/altpartsinc/single-post/8-different-types-of-welding-methods

Monday, October 11, 2021

Top 12 Car Parts You Should Know About

Whether you repair on your car or bring it to the service center, it is helpful to know the common parts of a car. It helps in making educated decisions on car maintenance. We have a guide to help you get started with all the information about different car parts.

 

1. Radiator

The radiator is a heat exchanger useful to remove heat from the coolant in the cooling system to prevent your car's engine from overheating. The hot coolant is routed through the radiator. Here, the coolant can exchange heat with the passing air.

 

For general maintenance on your radiator, you should check your coolant levels twice a year. Replacing your cars's radiator can take most of the day but it is a doable DIY job. If you want to replace your radiator, use good quality parts like Mitsubishi replacement parts. This will help in increasing the longevity of the radiator.


It is also notable that when you use a good quality replacement part, it becomes easier for you to fit those parts properly. Because the quality parts have precise cutting and folding. Additionally, you should refer to your car's repair manual because each car is slightly different on its own.

 

2. Battery

The battery stores all the energy in chemical form to release it as electricity to run your car's electrical components. Some other terms that you may hear when talking about a car battery are:

 

  • Battery Terminal

It is a means of connecting the battery to the car's electrical system. The three types of battery terminals are post or top, side, and L.

 

  • Battery Capacity

It is the energy output of a battery measured in amp/hours.

 

  • Cold Cranking Amps

It refers to the amount of current the battery can supply to the car.

 

  • Group Size

This is just what it sounds like - the size of the battery. Standard group sizes are:

  • 24, 24F
  • 25
  • 34
  • 35
  • 51, 51R
  • 52
  • 58, 58R
  • 59
  • 65

Battery is one of the crucial parts of your car and thus it is advisable to let the best do their jobs. Mitsubishi machine parts can make sure you have the correct battery for your car.

 

3. AGM

This stands for absorbent glass mat. It is a design in which sulfuric acid gets absorbed by a fiberglass mat. It makes the battery spill-proof and better at holding a charge.

 

4. Brakes

A car's brake system is useful to stop or slow a car and prevent it from moving when stopped or parked. The two most common systems of a car brake are disc brakes and drum brake systems. Here are some of the most common disc brake parts:

  • Caliper
  • Brake Pad
  • Brake Rotor

Drum brake systems usually consist of a brake drum and shoes. The shoes are covered in friction material pressed against the inner part of the drum to create friction and eventually to slow the car.


Do you hear squeaky brakes and see a brake job in your future? Well, we can help you get started. Brakes are the life saviors, thus it is important to keep a check if your brake fluid isn't leaking. You should also know which kind of brake pad you need to buy as per your car model and damage. Mitsubishi replacement parts and Mitsubishi machine parts can be a good choice for trusting on with brakes.

 

5. Alternator

It is an electricity generating device that converts mechanical energy to electrical energy in alternating current. It is useful in supplying power to your car's electrical system through the battery.


If you ever notice that your battery is not working or appears swollen, then your alternator could have a faulty voltage and it may be overcharging the battery.

 

6. Axle

The front and rear axles are cross members supporting a car where there are wheel hubs attached. Axles are also part of your car's suspension system and are responsible for sending power to the wheels from the engine through the transmission and differential. They link the wheels to the car thus ensuring its proper alignment.

 

7. Muffler

This comes just before the end of the exhaust pipe. It helps in reducing the noise emitted by the exhaust system. Muffler restricts exhaust gas flow that leads to a quieter ride.

 

8. Tailpipe

It is the pipe that carries out exhaust fumes from the muffler or catalytic converter to the car's rear.

 

9.Fuel Tank

It is a storage tank for gasoline that powers your car to run or work.

 

10. AC Compressor

It is responsible for pumping coolant throughout your system and starting the cooling process of your car. Without it, the AC system of your car will not work. It uses the power of battery and fuel to give you chilled cars under the summer sun.

 

11. Shock Absorbers

This is a hydraulic device used at each wheel of the suspension system. It helps to control the up, down, and rolling motion of a car body by dampening the oscillations or jouncing the springs when the car goes over bumps.

A typical shock absorber has three functions:

  • Control body sway
  • Dampen the effect of spring oscillation
  • Reduce the tendency of a tire tread

12. Transmission

It is a gearing device of a car that provides variable ratios between the engine output and the differential input. Automotive transmissions are usually more complex than bicycle transmissions. Still, they play the same primary function - allowing the driver to select smaller or larger gears to optimize driving conditions without working the engine too hard. There are two types of transmission:

  • Automatic Transmission
  • Manual Transmission

I hope the guide was helpful for you. But you should always consult your car's manual and a repair guide before making any decision related to replacing or fixing the parts. Also taking help from a licensed professional mechanic is always the best option of all.


Source: https://altpartsinc.wixsite.com/altpartsinc/single-post/top-12-car-parts-you-should-know

Thursday, October 7, 2021

4 Common Types of Spare Parts for Your Car

Buying your own spare parts can help you to save a significant amount of money whether you fit them by yourself or supply them to a mechanic to fit. But instead of letting them buy the spare parts you can buy it yourself and avoid a situation where they overcharge you. But buying your own spare parts can be confusing as there are different types of parts. Also, the jargon used in the motor industry is hard to understand for most people.


So, if you lack knowledge about spare parts and end up buying the wrong one, it can lead you to lose money. Thus, to help you with that, we will go through the different types of parts that you can buy, especially for your car. Also, using quality parts like trumpf laser parts in your car can increase its performance and longevity.


Common Types of Spare Parts for Your Car


  1. Original Equipment Parts

Often referred to as OE, these are the exact parts that the manufacturer fitted originally in your car during the process of manufacturing. Another company can sometimes manufacture them, but they are always supplied in a car manufacturer-branded box.


If you buy these types of parts, it will give you peace of mind because you know for a fact that at least it will be compatible and fit your car. Additionally, you have the added benefit that the parts will come with a manufacturer guarantee. Original parts are generally the most expensive parts of all types because of their added quality.


  1. Replacement Parts

Referred to as Original Equipment Manufacturer, replacement parts are made by a third party company that has also supplied the parts to the actual manufacturer. These parts are identical to the Original Equipment parts. 


The only difference is that they won't come in the car manufacturer's branded box. This means that the replacement parts work precisely like the original one, giving you the familiarity and same performance.

If you are not the first owner of your car, then OEM parts are a worthy choice. The price of replacement parts is less than OE parts and often will not invalidate your car's warranty. You will often find that there is still a large range of big household name brands that supply OEM parts, such as Trumpf spare parts.


  1. Remanufactured Parts

Numerous components come together to make remanufactured parts just like it takes to make an engine. For instance, when an engine fails, it is usually a single component that breaks. Thus, remanufacturing an engine would involve breaking the unit down and replacing only the broken part with a brand new one. Then the mechanic tests the entire engine thoroughly to ensure it works properly and then puts it back on the mark to sell it to the car owner.


If you have an old car, this is the best way by which you can get it back on the road. Although fitting new parts into an old system can sometimes cause weaknesses in the existing parts, so ask your mechanic if it is the best choice for your car. You can cover yourself by buying only remanufactured parts that come with a guarantee or a warranty.


  1. Reconditioned Parts

These parts involve stripping down major car parts and then replacing the broken parts with the used parts instead of new parts. These parts are significantly cheaper, but you can never know how long they will last. Because of this they rarely come with a warranty.


Final Words

Frankly speaking, if you have a car that is less than three to four years old then buying OEM parts is advisable. After four years you should look for OEM and aftermarket parts by keeping your budget in mind. If you have a car model older than four years, then the remanufactured parts can be the best choice for you. Also, don’t forget that quality matters the most.


Whether you choose any of the spare parts, going for the quality parts like trumpf spare parts and trumpf laser parts can add longevity and quality performance to your car.


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