7 Questions to Ask Before Hiring a Sheet Metal Fabricator

Last updated July

Click here to get more.

‍

Partnering with the right sheet metal fabricator is critical to the success of your company if you need fabricated parts.

Sheet metal fabrication is a precise task that requires the right equipment and utmost diligence to get it right. If you’re in the aerospace or telecom industry, you probably understand just how important the right sheet metal fabricator is to the success of your projects.

Unfortunately, finding a good sheet metal shop is easier said than done. Though there are plenty of metal fabricators out there, you’ll find that only a handful meet your expectations.

Your next project requires stellar service and efficient manufacturing. If you’re on the hunt for a metal fabrication company, here are some questions you can ask to ensure you get the right company for the job.

What Questions Should You Ask a Sheet Metal Fabricator?

There are countless sheet metal fabrication companies in the United States, and Texas sheet metal shops alone number in the hundreds, at least. You can easily find one by doing a quick online search. However, to find the best match for your project, you may have to do some digging around.

If you don’t want to gamble with your results, here are a few questions to ask a sheet metal fabricator to know whether you’re in the right hands.

1. What Projects Have They Previously Worked On?

For specialty companies like metal fabricators, the number of operational years doesn’t always tell you everything about the company’s relevant experience. What matters more is how many projects like yours they’ve successfully completed. For example, if you have an aerospace project, then you wouldn't want to select a fabricator that isn’t familiar with the requirements of that industry. 

Ask the company what other projects they’ve done to gauge their level of experience, and request a portfolio. Most fabrication companies have portfolios, and if the company doesn’t have one, that’s often a red flag.

You can also ask to see previous clients’ testimonials. Don’t trust the online reviews too much, because anyone can write an online review without even dealing with the company in the first place.

2. What Equipment Do They Use?

A sheet metal fabricator is only as good as its equipment and staff. So ask to see the company’s equipment on a tour, or at least request information and specifications about their machines.

A company with state-of-the-art equipment is more likely to meet your requirements. You should look for new punch presses and lasers, good press brakes that can accommodate your parts, graining equipment that can put a nice finish on the parts, and hardware insertion machines, to name a few.

One often overlooked piece of equipment: precision machines that can cut through thick metal easily. Shops with excellent cutting equipment can more easily satisfy your volume requirements. And don’t overlook specialized equipment like tube laser cutting machines.

3. How Versed Are They With Custom Metal Fabrication Techniques?

Equipment aside, the right sheet metal fabricator should also be well-acquainted with industry-specific metal fabrication techniques. Some companies approach metal fabrication as a refined art—if you can find such a company, then you’ve hit the jackpot.

The company you choose should also have enough skilled labor, machinery, and expertise to handle the material you need, whether that’s copper, brass, aluminum, stainless steel, or mild steel.

If your parts require precision welding services then you want a company that offers both MIG (metal inert gas) and TIG (tungsten inert gas) welding. Robotic welding services can also be ideal for certain types of projects. Compare the capabilities of several potential partners before choosing one. 

4. What Is Their Average Employee Tenure?

It’s not enough for a shop to have the latest precision fabrication equipment and machinery. They also need a capable and engaged team to get the most value out of their machines and equipment.

As such, it’s important to ask how the company hires its talent. Ask for a brief explanation of the company’s hiring policies. This should give you a picture of the company’s labor situation and whether they’re a good fit for the project.

A good indicator is if the company’s welders have American Welding Society (AWS) certification—that means that the company has a rigorous hiring policy.

5. Does the Company Provide Engineering Services?

Finding a manufacturing company that can also provide engineering and design services is a big benefit, because it allows you to have the manufacturing experts add value to your products by improving their manufacturability. 

Design for manufacturability (DFM) means that the part is designed in a way that will allow it to be manufactured as efficiently as possible. Many engineers understandably focus primarily on function during design, and they may not know the capabilities, strengths and weaknesses of the part’s eventual manufacturer. But a strong manufacturing partner will flag any potential manufacturability issues early in your collaboration, so that your parts are not unnecessarily expensive.

Think of engineering and design services as a bonus rather than a necessity. However, if you find a company that also offers these capabilities, then you will likely save time and money on your project.

6. Do They Offer Finishing?

Ask if the fabrication company offers other sheet metal services like finishing, or whether you have to find another vendor for that part of the process. If they do, find out whether they do it themselves, or if they outsource for these services. Regardless, working with a company that manages your finishing—whether in-house or third-party—streamlines your overall manufacturing process. It’s the same reason a shop with in-house precision machining services can simplify your project.

7. Can They Provide Competitive Pricing in a Timely Fashion?

You never want to choose a company based solely on the cheapest price, because oftentimes you get what you pay for—the company with the cheapest price may have missed something in their quoting process, which will cost you in the long run. However, while price shouldn’t be your only concern, it is of course an important part of the equation. 

You want to establish a good relationship with a manufacturer that you can always count on to provide you with competitive pricing and prompt quotes. That way, you don’t have to send RFQs to multiple vendors on every project and delay your project as you wait for responses.

The Right Sheet Metal Fabricator Is Seven Questions Away

Finding the right sheet metal fabricator will be easier than ever if you ask these seven questions. As you prepare to make your final decision, remember to compare services between multiple fabrication companies and never let cost be the primary factor in your choice. Otherwise, in most cases, you’ll get what you pay for.

Not all sheet metal parts are created equal, and the most important factor in the success of a sheet metal part is the material it’s made from.

The type of metal a sheet metal part is made from must be chosen carefully to ensure that the part meets fabrication requirements during manufacture and performance requirements in its final application. Picking the wrong material can cause part or whole product failure, low yields, high costs, poor performance or a number of safety issues.

Imagine a safety critical structural part failing due to improper material selection, and you have an idea of one potential concern. If you imagine products having to be recalled, at a high cost, due to in-use failure you have an idea of another potential concern.

The process of selecting the material for a sheet metal part can be complex because of the sheer number of factors involved. The issue is something that requires careful consideration.

The most important questions to answer when selecting a material for sheet metal parts are:

1. What requirements will a sheet metal part need to meet in application?
2. What types of sheet metal are available?
3. What fabrication and manufacturing processes are possible with different sheet metals?

Fig. 1: Sheet Metal Parts at Komacut

In this guide, we'll look at the most common sheet metal materials used and go over the factors that need to be considered when choosing the right material.

There are many types of sheet metal, and each type has its benefits and drawbacks that must be considered when selecting a material for a project. The different properties different materials have make them suitable for different applications.

We will explore the types of sheet metal materials used at Komaspec and give examples of real-life uses for each of them.

Mild or Low Carbon Steel

Mild steel is by far the most commonly used material for sheet metal fabrication. The relative strength it has, combined with the ease of fabrication and relatively low cost compared to stainless steel or aluminum, means that it’s suitable in plenty of applications. These steels can be used to create a wide variety of custom steel parts. Automotive body panels, furniture and structural parts are common examples of mild steel in application.

Mild Steel Pros

• Inexpensive
• Easy to work with
• High weldability
• Versatile
• Strong for its weight
• Can support a variety of surface finishes

Mild Steel Cons

• Not suitable for high-gloss polishing
• Needs protection from rust (additional processing and cost)
• Less strong and durable than other materials
• Less heat resistant than other materials

Stainless Steel

Stainless steel is an alloy containing chromium, which provides good corrosion resistance and improved strength. Stainless steel is great in outdoor applications or other applications in which parts might be exposed to rust or corrosive chemicals. It’s also useful in applications that need more hardness than mild steel. As well as this, it is non-magnetic and non-sparking, making it ideal for medical instruments.

Fig. 2: Mill Finish – Stainless Steel

Stainless Steel Pros

• Easy to work with
• Suitable for high-gloss polishing
• Durable
• Easy to clean and sterilize
• High levels of built-in corrosion resistance

Stainless Steel Cons

• More expensive than mild steel (average of three to five times the cost, depending on the grade of stainless steel)
• Welding can be more cumbersome (requires specialized equipment)
• It cannot be used in applications where magnetism is needed

Galvanized Steel

When steel is galvanized, a layer of zinc is bonded to its surface. This method serves as a cost-effective way to build a high level of corrosion resistance into the material. In turn, this reduces the potential for rusting prior to fabrication and the need for additional surface finishing. Galvanized steel is perfect for things like fencing and other outdoor frameworks that are exposed to the weather.

Fig. 3: Cold Galvanized Steel

Galvanized Steel Pros

• Easy to manufacture and maintain
• Cost-effective corrosion protection
• Durable

Galvanized Steel Cons

• Joints or cuts can corrode over time where the processing (laser cuts or bending in the case of sheet metal fabrication) has compromised the galvanized protective layer.
• Galvanized steel can be expensive. It is significantly more expensive than mild steel, for example.

Aluminum

Aluminum has many wonderful qualities. Its primary qualities are its high level of resistance to rust and its reduced weight, being one-third of the weight of steel. It is less strong than other materials, but this can sometimes be overcome through design. In some applications, aluminum can also be designed to be equally as strong as steel.

Because of its lack of strength, aluminum may often not be able to handle the same stresses as steel. As such, you might want to contact our representatives at Komaspec to help you decide if aluminum is suitable for your intended use or not.

Fig. 4: Aluminum RAL

Aluminum Pros

• High strength to weight ratio (ideal for applications requiring weight reduction)
• Truly corrosion resistant
• Durable
• Aesthetically attractive with only minor polishing

Aluminum Cons

• More expensive than carbon steels
• Significantly lower tensile and yield strength than steel
• Can require additional hardening processes after initial manufacturing stage

Spring Steel

Spring steel is a very resilient material containing manganese and high concentrations of carbon. It is designed to bend or flex under load and to return to its original shape when the load is removed. This makes it an excellent choice for making latching mechanisms, drive belts and, of course, springs.

Spring Steel Pros

• High yield strength
• High tensile and fatigue strength
• Easily formed and shaped

Spring Steel Cons

• Potential to lose shape over time
• Prone to rust and corrosion
• Limited heat resistance

For more info about each of the sheet metal materials Komaspec offers, including specific physical properties and surface finishing options, you can refer to the sheet metal material selection on our website.

Order and track sheet metal components online through Komaspec's on-demand sheet metal fabrication platform.

Visit Komacut.com

The costs that come with sheet metal parts fabrication begin with the cost of the raw material. Costlier materials, such as aluminum, stainless steel, and copper, can provide superior performance compared to cheaper materials, such as mild steel and galvanized steel. Still, they obviously come with a higher price tag.

In some cases, a cheaper metal will be suitable for a job and will provide adequate performance at a lower cost. For example, if aluminum is too expensive for a part that requires light weight and corrosion resistance, galvanized steel might be a better choice.

Ultimately, choosing the right material will mean weighing up performance requirements and the cost constraints of a project.

The table below shows a rough outline of how much each material costs. We can see that, while aluminum is twice as expensive as steel per kg, stainless steel is nearly five times more costly. Titanium is much more expensive again and is used sparingly in products such as jet engines, where the extra strength it provides is crucial.

Fig. 5: Material Cost Per Kg (USD)

The Difficulty in Comparing Material Costs

When considering which sheet metal material to buy for a project based on cost, there’s more to consider than just the price of a material per kg. You have to weigh material cost per kg against the design and performance goals of the project. Not all sheet metal is created equal in strength, weight, and appearance.

Stainless steel is stronger by weight than aluminum, for example, meaning that designs can be adapted. Thinner stainless steel can be used for a tank or vessel than it can for an aluminum one, for example.

With competitive price and timely delivery, Cnstamp sincerely hope to be your supplier and partner.

Cost Increase of Custom Steel Parts

Custom design requirements often impact the price of steel sheet metal parts. This is because custom designs often require more intricate processes and skills to manufacture, increasing the cost of labor and materials.

Custom metal parts fabrication often also requires additional processes, such as welding, cutting, and bending, which can also increase the cost of the parts. They may require the use of specialized tools and equipment to construct correctly as well.

Understanding the mechanical properties different sheet metals have and the effect these properties have in application is critical to selecting the right material. There are many physical qualities inherent in different metals, and each one can be used to serve a different purpose.

Some of the most essential mechanical factors to consider in the material selection process include:

• Strength
• Ductility
• Corrosion resistance
• Ease of manufacture

Strength of Sheet Metal Parts

Material strength is often the most widely used metric in determining material suitability. It is measured according to how much load a material can withstand before it bends out of its original shape. This bending is also known as plastic deformation.

There are two ways of looking at the strength of a material when it comes to choosing one for manufacture. Considering each separately may give a different outcome in decision making.

Strength By Cost

This simply considers how strong a material is in respect to how much it costs. Titanium is an example of a material with a high cost to strength ratio, and mild steel is an example of the opposite.

For metal enclosures or tanks that require large amounts of high strength material at low cost, for example, low-carbon (mild) steel would generally be considered the ideal material.

Strength By Weight

This considers how strong a material is in relation to its mass (or weight). Gaining high strength with lightweight materials is important in certain applications. In airplanes, for example, reducing weight is essential, and aluminum is often a good choice.

Strength to weight properties are also assessed by looking at specific strength.

Interestingly, in a comparison of aluminum, carbon steel, and stainless steel, the aluminum alloy has the highest specific strength (ASM Material Data Sheet), despite having the lowest tensile strength.

Fig. 6: Tensile Strength vs. Specific Strength

Ductility

Also referred to as formability, this is the ability of a material to be stretched without cracking or breaking. If a material is highly ductile, it will withstand a large amount of stretching. Stretching commonly occurs in manufacture when a tight radius is formed during a metal stamping or folding process.

Fig. 7: Sheet Metal Materials at Komaspec

A simple way to visualize ductility is to imagine a material acting as a spring - the greater the elasticity of a material, the better its ductility. One thing to note is that this flexibility can be increased using a metal-forming process called annealing.

Corrosion Resistance

Corrosion occurs when a metal deteriorates as a result of the action of air, moisture or a chemical. The most common form is rust, which happens when iron in a material reacts with the oxygen and moisture in its surroundings. Good corrosion resistance (Metals - Corrosion Resistance to Aggressive Fluids) is a crucial factor in sheet metal selection because corrosion can weaken steel in a surprisingly short period of time if the conditions are right.

Fig. 8: Corrosion From Aggressive Fluids

The two main factors that help reduce corrosion are:

1. Choosing a material that will not be prone to corrosion in the application the part will have
2. Employing a secondary finishing process such as painting or galvanizing

What is the Best Material for Corrosion Resistance?

Stainless Steel

Stainless steel contains chromium, which forms a thin film of chromium oxide on its surface, protecting it from corrosion. Stainless steel can become discolored, or it can rust if there is long term exposure to the elements. It is particularly vulnerable to corrosion where there are high salt concentrations. However, the resistance is greatly superior to mild steels.

Bimetal corrosion is a risk with stainless steel and must be considered when mating with other parts or fasteners.

Aluminum

A lightweight alternative to steel, aluminum is a naturally non-reactive metal that will not corrode in the presence of air or water.

Aluminum can be somewhat vulnerable to corrosion when in contact with concrete, however, and there’s also a risk of bimetal corrosion. Both of these problems can be overcome through anodizing or painting.

Modified Mild Steel

Using galvanized mild steel could be a great alternative if cost is a factor. The Zinc coating gives a layer of protection at lower cost. Be aware, however, that when galvanized mild steel sheets are cut, the edges are exposed and will be vulnerable to rust.

Mild Steels

Mild carbon steels without secondary finishing will rust rapidly in the presence of moisture or salt. In fact, unprotected steel sheets can begin to rust even before fabrication, which often leads to the need for deburring or chemical treatment to remove rust before surface finishing.

Rust can be so severe, in some cases, that it impacts the final part appearance even after painting. Parts can appear “mottled” or like they have a blotched surface when this happens.

Sheet metal part fabrication processes involve procedures such as cutting, bending, and joining sheets of metal. These procedures create different configurations of sheet metal to create custom steel parts. Each material has its own specific advantages and disadvantages in the fabrication process that need to be considered.

Laser Cutting

Laser cutting is a precise and reliable method for cutting all different types of metal. This method is a great option in many different situations. However, it’s particularly useful where speed and precision are important, such as in the automotive industry. Lasers are also useful for cutting thicker materials, for making complex cut-outs and for making very clean cuts.

Shiny metals, such as aluminum and copper, are more difficult to cut, although it is still possible to cut these materials with a laser. The minimum / maximum thickness which can be cut, however, varies depending on the material type, which in the case of very thick or very thin material, may limit potential choices.

Bending

There are two factors that have an impact on bendability:

1. Material Choice

Some materials can be bended more easily than others and with more success in application. It’s worth noting, however, that even within the same material, there can be differences in bendability between different grades. If ductility is important, for example, the series aluminum is best avoided as the hardness of the material can result in micro-cracks and part failure duing bending.

Generally speaking, aluminum is commonly considered a good choice where sheet metal bending is required.

1. Product Design

Designs with tight bend radii and low tolerances will mean that a more bendable material is required. For more about bend design, read our article on sheet metal design guidelines. Very stiff materials (i.e. medium carbon or stainless steels) may require larger reliefs are larger bend radii vs mild steels and aluminum parts.

Fig. 9: Metal Bending at Komacut

Weldability

Welding is one of the most common methods for joining and manufacturing metal components. This process uses a high-powered and highly controlled electric arc to heat base metals to the point where they melt. They are then joined and solidify as almost one piece.

The weldability of sheet metal will depend on the type of filler metal used, the process used and the material makeup of the sheet.

Mild carbon steels are highly weldable with a variety of processes, are generally finished with secondary processes which help to resolve discoloration of the base material.  Aluminum requires TIG welding, which can be more time and cost intensive than MIG, and the material is more vulnerable to deformation and discoloration due to heating during the welding process. Stainless is also weldable, but requires TIG or special robotic welding equipment and may need passivation or secondary processes to hide discoloration from the welding process.

Fig. 10: Robotic Welding at Komacut

Different materials have different properties when it comes to surface finishing. Not all materials are compatible with all surface finishing options, such as anodization being largely specific to aluminum, or the difficulty of electropolishing mild steel parts.

For which options are available for various sheet metal materials, please see the table below or explore in greater detail in our surface finishing article.

Finish Corrosion Resistance Coating Thickness Abrasion Resistance

Table 1: Surface Finishing: Corrosion, Thickness, Abrasion

Finish Carbon Steel Stainless steel Aluminium Application Visual Requirements Thickness Corrosion resistance Mill Finish Internal Parts or Parts with Subsequent Processing Low-Visual - - Antirust Oiling Parts with Subsequent Processing Low-Visual - 24 Hours NSS Brushed Indoor Med-Visual - - Anodized Indoor / Outdoor High-Visual - - Mircro-Polishing Indoor / Outdoor High-Visual - - Passivation Indoor / Outdoor Med-Visual 0.5 to 15μm - Zinc Plating Indoor / Outdoor Low-Visual 5 to 25μm 48 to 94 Hours NSS E-Coating Indoor / Outdoor Low-Visual 5 to 25μm 96 Hours NSS Powder Coating Indoor / Outdoor High-Visual 70 to 150μm 480- Hours

Table 2: Metal Finishing Guide

The application of the part often determines the finishing requirements. Some reasons for wanting an enhanced surface finish include:

• Aesthetics
• Hygiene
• Durability

Because these aspects are critical to quality for many applications, it’s important to think about these requirements when selecting a material.

Aesthetics

Polishing is a common technique used to create a high-quality look that’s pleasing to the eye. The process involves progressively removing all surface imperfections to give a metal part a shiny finish.

Fig. 11: Surface Finishing

Polishing for Sheet Metal Parts

• Copper
• Stainless steel
• Aluminum

Stainless steel can be brought to a mirror finish and is very durable; aluminum is less durable and can take longer to reach the same finish. It is not possible to create a durable polished surface on mild steel.

Hygienic Sheet Metal Parts

Sheet metal parts are often used in both the food industry and medical settings. The material chosen must be resistant to the build-up of bacteria and other contaminants.

Stainless steel, for example, is a popular choice for sheet metal products because it is non-porous and resistant to corrosion. This eliminates the need for potentially toxic paints and other coatings.

Additionally, stainless steel can be easily cleaned and sterilized using various chemical and thermal methods. This makes it an ideal choice for food-grade products and medical instrumentation.

Stainless steel 316, for example, is widely used for food service or medical equipment due to its excellent resistance to chemical cleaning agents, acids and other corrosion.

Durability for Sheet Metal Parts

Durability is the main factor that affects a material’s resilience to dents, scratches and bending. Also important in hygienic environments, the durability of a material affects how well it can withstand harsh environments without needing to be repaired or replaced.

Stainless steel is a great option if a part needs to resist scratching and be easy to repair. When scratched, it does not cause possible contamination with aluminum oxide. Aluminum, along with copper, will resist scratches and deformation very poorly.

Mild steel is another durable material, but the paints and coating needed should be considered as they can often lead to the same problems with contamination.

Material finishing requirements will help determine the best material choice for any particular part. For more about different types of finishing, read this guide.

For more Sheet Metal Tooling & Machineryinformation, please contact us. We will provide professional answers.