Metal Bending Properties Chart for Press Brakes: 1 of many useful tools to have.

Press Brake Metal Bending Properties Chart
Press Brake
What is a Metal Bending Properties Chart?

A Metal Bending Properties Chart is an essential tool for professionals in the metalworking industry. These charts provide a comprehensive overview of the mechanical properties of different metals, including tensile strength, yield strength, compressive strength, and more. By referring to these charts, professionals can make informed decisions about the type of metal to use for a specific application.

A Metal Bending Properties Chart is especially useful for metal bending applications. They provide information on the minimum bend radius for different metals, which is critical for ensuring that the metal does not crack or deform during the bending process. Additionally, the charts provide information on the maximum bend angle for different metals, which is important for ensuring that the metal does not fracture during the bending process.

Metal Bending Properties Charts are also useful for selecting the right tooling for a specific application. By referring to these charts, professionals can determine the appropriate tooling material and hardness required to achieve the desired bend radius and angle.

In summary, a Metal Bending Properties Chart is an indispensable tool for professionals in the metalworking industry. They provide critical information on mechanical properties, minimum bend radius, maximum bend angle, and tooling selection. By using these charts, professionals can ensure that their metal bending applications are successful and meet the required specifications.

Metal Strength Chart: a Basic Guide to Metal Strength You Must Know

Here is our Metal Bending Properties Chart for Press Brakes.

Check out our Free Calculator!

It is important to note that the tensile strength, yield strength, and hardness of a metal can vary depending on a number of factors, such as its composition, heat treatment, and manufacturing process. Therefore, it is always best to consult with a materials engineer or other qualified professional to get the most accurate information for your specific application.

Metal                                               Tensile Strength (PSI)      Yield Strength (PSI)              Hardness Rockwell

Aluminum (6061-T6)                        45,000                            40,000                                  95 HRB

Aluminum alloys                            45,000                               40,000                                 95 HRB

Aluminum 5052-H32                    25,000                               15,000                                  70 HRB

Brass (C36000)                               65,000                               48,000                                 75 HRB

Brass alloys                                     65,000                               48,000                                75 HRB

Copper (C10100)                           32,000                               15,000                                 45 HRB

Copper alloys                                 65,000                               48,000                                75 HRB

Cor-Ten Steel                                   60,000                               40,000                               80 HRB

Mild Steel A36***(see below)    58,000 – 80,000                      36,000                                72 HRB

Mild Steel grade 50                       50,000                               50,000                                  80 HRB

Galvanized steel                             60,000                               40,000                               80 HRB

Hot rolled steel                              60,000                               40,000                               80 HRB

Domex steel                                    60,000                               40,000                              80 HRB

Magnesium alloys                         32,000                               15,000                               45 HRB

Stainless Steel (304)                      75,000                               50,000                               85 HRB

Stainless Steel (316)                      75,000                               50,000                               85 HRB

Stainless Steel (410)                      100,000                             60,000                               35 HRC

Stainless Steel (420)                      100,000                             60,000                               45 HRC

Stainless Steel (17-4 PH)               180,000                             160,000                             45 HRC

Steel (1018)                                    60,000                               40,000                               80 HRB

Steel (4140)                                    120,000                             100,000                             30 HRC

Steel (1095)                                    180,000                             160,000                             55 HRC

Titanium (6Al-4V)                          130,000                             115,000                             35 HRC

Tool steel (D2)                                295,000                             240,000                             60 HRC

Tool steel (H13)                              280,000                             220,000                             52 HRC

Tool steel (M2)                               275,000                             215,000                             63 HRC

Tool steel (S7)                                 290,000                             230,000                             57 HRC

Tool steel (O1)                                285,000                             225,000                             62 HRC

Tool steel (A2)                                260,000                             200,000                             55 HRC

Tool steel (W1)                               230,000                             170,000                             48 HRC

Tool steel (L6)                                 250,000                             190,000                             52 HRC

Tool steel (D3)                                270,000                             210,000                             58 HRC

Tool steel (4140)                            220,000                             160,000                             45 HRC

Tool steel (420)                              210,000                             150,000                             40 HRC

Zinc alloys                                       65,000                               48,000                               75 HRB

Steel A36***

Steel A36 has a range for its specs because it is a hot-rolled carbon steel. Hot-rolled steel is produced by heating steel billets to a high temperature and then rolling them through a series of rollers to reduce their thickness. This process can result in some variation in the mechanical properties of the steel, such as tensile strength, yield strength, and hardness.

The range of specs for A36 steel is also due to the fact that it can be produced in a variety of thicknesses and shapes. The thickness of the steel can affect its mechanical properties, with thicker steel generally having lower tensile strength and yield strength than thinner steel. The shape of the steel can also affect its mechanical properties, with more complex shapes generally having lower tensile strength and yield strength than simpler shapes.

Despite the range in its specs, A36 steel is a very versatile and widely used material. It is known for its good strength, toughness, and weldability. A36 steel is commonly used in structural applications, such as bridges and buildings, as well as in machinery and equipment.

Here are some of the factors that can affect the mechanical properties of A36 steel:

Chemical composition: The chemical composition of steel can have a significant impact on its mechanical properties. Variations in the amounts of carbon, manganese, and other elements in the steel can cause changes in its tensile strength, yield strength, and hardness.

Heat treatment: Heat treatment is a process of heating and cooling steel to specific temperatures to alter its mechanical properties. A36 steel is typically not heat treated, but it can be heat treated to improve its strength, toughness, and wear resistance.

Manufacturing process: The manufacturing process used to produce A36 steel can also affect its mechanical properties. Hot-rolled steel is typically produced in a variety of thicknesses and shapes, which can cause some variation in its mechanical properties.

Despite the range in its specs, A36 steel is a very reliable material with good mechanical properties. It is a popular choice for a wide variety of applications, including structural applications, machinery, and equipment.

Steel A36 is a good choice for bending with a press brake. It is a mild steel with good ductility, which means that it can be bent without cracking. A36 steel is also relatively inexpensive and widely available, making it a popular choice for a variety of applications.

Here are some tips for bending A36 steel with a press brake:

Use sharp tooling. Dull tooling can cause the metal to tear or crack.

Use the correct die opening. The die opening should be slightly larger than the thickness of the metal being bent.

Overbend the metal. This will help to compensate for springback.

Bend the metal slowly and carefully.

If necessary, heat the metal before bending. This will make the metal more ductile and easier to bend.

The amount of heat required will depend on the thickness of the metal and the desired bend angle. For thin metal, it may be sufficient to heat the metal with a propane torch. For thicker metal, it may be necessary to use an induction heater or a furnace.

Once the metal has been heated, allow it to cool to room temperature before bending. This will help to prevent the metal from cracking.

By following these tips, you can help to ensure that your A36 steel bends are successful and that you avoid cracking the metal.

Air Bending Force Chart For Mild Steel

Air Bending Force Chart For Mild Steel

Air Bending Force Chart For Stainless Steel

Air Bending Force Chart For Stainless Steel

A Metal Bending Properties Chart Poem
Metal Bending Properties Chart, oh how they shine,
A tool to help us bend and refine.
A Metal Bending Properties Chart to show the minimum radius,
To bend a metal without causing chaos.

The Metal Bending Properties Chart is used to help us see,
The limits of metal's flexibility.
To bend it too much would cause it to break,
But with the Metal Bending Properties Chart, we know how much we can take.

So when you're working with metal, don't forget,
The Metal Bending Properties Chart is your friend, and it's not done yet.
It's a tool that helps you work with ease,
And bend your metal with the greatest of ease.

With the Metal Bending Properties Chart in hand,
You can bend your metal to your heart's demand.

With the Metal Bending Properties Chart in hand, You can bend your metal to your heart's demand. With the Metal Bending Properties Chart in hand, You can bend your metal to your heart's demand. With the Metal Bending Properties Chart in hand, You can bend your metal to your heart's demand. With the Metal Bending Properties Chart in hand, You can bend your metal to your heart's demand. With the Metal Bending Properties Chart in hand, You can bend your metal to your heart's dem