S. M. Engineers

·         This machine is designed for measuring hardness of metals & alloys of all kinds, hard or soft, whether round, flat or irregular in shapes.

·         Semi-automatic, motorized, digital, microprocessor based panel. We can get hardness in digital version.

·         Centronics parallel port for connecting dot matrix printer.

·         Three modes of operation viz.  Motorized automatic mode,  Motorized mode  & Manual mode.

·         Automatic weight selection by thumb wheel.

·         Test height x Throat is – 295 x 148 mm.

Machines strictly conforms to IS:1586 / 2281, BS: 240, ASTM-E-10

A binocular metallurgical microscope is a specialized type of microscope designed specifically for examining metallic materials at high magnifications. It is commonly used in metallurgy, materials science, and other fields where detailed analysis of metal samples is required.

Here are some key features and components of a binocular metallurgical microscope:

1. Binocular Head: The microscope is equipped with a binocular head, allowing two eyepieces to be used simultaneously for comfortable viewing.

2. Magnification: Binocular metallurgical microscopes typically offer a range of magnifications, often from around 50x to 1000x or higher. They may have multiple objective lenses and interchangeable eyepieces to achieve different magnification levels.

3. Illumination: Metallurgical microscopes usually feature both transmitted (bottom) and reflected (top) illumination. Transmitted illumination is used for viewing thin sections of samples, while reflected illumination is used for opaque samples. These illumination methods can be adjusted for different contrast techniques such as brightfield, darkfield, polarized light, and differential interference contrast (DIC).

4. Stage: The microscope stage is where the sample is placed for examination. It typically has X-Y controls for precise positioning of the sample under the objective lenses.

5. Objective Lenses: Metallurgical microscopes come with multiple objective lenses of different magnifications, usually ranging from low to high magnification. These lenses are specifically designed for examining metal samples and often have long working distances to accommodate the depth of the samples.

6. Polarizing Filters: Some models of binocular metallurgical microscopes may include polarizing filters, which are useful for examining the optical properties and internal structures of metal samples.

7. Camera Mount: Many modern binocular metallurgical microscopes come equipped with a camera mount, allowing for digital imaging and documentation of the samples being examined.

8. Software Integration: Some advanced models may also offer software integration for image analysis and measurement, allowing for quantitative analysis of the metal samples.

A binocular metallurgical microscope is a specialized type of microscope designed specifically for examining metallic materials at high magnifications. It is commonly used in metallurgy, materials science, and other fields where detailed analysis of metal samples is required.

Here are some key features and components of a binocular metallurgical microscope:

1. Binocular Head: The microscope is equipped with a binocular head, allowing two eyepieces to be used simultaneously for comfortable viewing.

2. Magnification: Binocular metallurgical microscopes typically offer a range of magnifications, often from around 50x to 1000x or higher. They may have multiple objective lenses and interchangeable eyepieces to achieve different magnification levels.

3. Illumination: Metallurgical microscopes usually feature both transmitted (bottom) and reflected (top) illumination. Transmitted illumination is used for viewing thin sections of samples, while reflected illumination is used for opaque samples. These illumination methods can be adjusted for different contrast techniques such as brightfield, darkfield, polarized light, and differential interference contrast (DIC).

4. Stage: The microscope stage is where the sample is placed for examination. It typically has X-Y controls for precise positioning of the sample under the objective lenses.

5. Objective Lenses: Metallurgical microscopes come with multiple objective lenses of different magnifications, usually ranging from low to high magnification. These lenses are specifically designed for examining metal samples and often have long working distances to accommodate the depth of the samples.

6. Polarizing Filters: Some models of binocular metallurgical microscopes may include polarizing filters, which are useful for examining the optical properties and internal structures of metal samples.

7. Camera Mount: Many modern binocular metallurgical microscopes come equipped with a camera mount, allowing for digital imaging and documentation of the samples being examined.

8. Software Integration: Some advanced models may also offer software integration for image analysis and measurement, allowing for quantitative analysis of the metal samples.

This is a Rockwell hardness testing machine used to measure hardness of metals alloys of all kinds, hard or soft, whether round, flat or irregular in shapes.

·         Suitable for finding out Vickers hardness of metals from soft to very hard.

·         Push button control for load selection

·         A range of test loads for Vickers  - from 5 kg to 50 kg.

·         Image Magnifications - 75X 

·         A precision Diamond  Indentor (136° pyramid) is used to make sharp indentations on the specimens / samples.

·         Maximum Test height  x Throat :  245 x 120 mm.

·         Load accuracy well within ± 1% of nominal load value. Machine conforms to IS:1754.

Additional Information:

• Production Capacity: 10
• Delivery Time: 4 Weeks
• Packaging Details: Full Pack

·         The machine has a heavy,robust,C-type load frame & has been designed for production testing of heavy components for Brinell hardness value. This machine is suitable for foundries, engineering industry, forging plants, automobile industries, on production line.

·         Load stages – 750 kgf and 3000 kgf.

·         Since most of the operations are fast and automatic, the test speed is high with less operator fatigue.

·         A roller conveyor type sliding heavy table (base) for taking impression.

·         Computerized model is available .Computerized model has built in CCD and suitable advanced software. Hardness will be displayed on computer monitor automatically. Results printout can be taken.

Accuracy conforming to IS:2281.

We are recognized as a successful traders and suppliers of Dynamic Hardness Tester. It comes with finest of the raw materials along with upgraded tools and technique involved in the construction of the machine.

Features:

• Optimum work ability
• Automatic loading/unloading
• Taper front look

Other Details:

• Sleek & handy design, comes in a slim briefcase, for carrying the machine
• Mainly used to check hardness in confined spaces, on large & heavy components, permanently installed parts with low test expenditure
• Built in conversion facility to convert ‘D’ value to Vickers (HV), Rockwell (HRB, HRC), Brinell (HB)
• The model operates on two numbers of pencil cells
• 30 hardness scales for different probes selectable by feather touch keys
• Display indicates selected material & scale combination & hardness value
• Five numbers of probes D, G, SH, EX & C can be given in different combinations
• Facility to connect dot matrix printer through centronics parallel port
• Upto 100 readings can be stored in memory of the machine for printing purpose
• Automatic calibration facility of probe is available through keyboard

 

Additional Information:

• Production Capacity: 30
• Delivery Time: Immidietly

• Machine is provided with screen touch large display. Easy to read.

• Three Separate dwell times for major I minor loads &

display.

• Simultaneous display for Vickers & Brinell conversion with tensile strength.

• Thermal Printer Optional accessory can be given at an extra cost.

• RS232 facility is by default provided.

• Auto cylindrical correction facility by default provided.

A Rockwell hardness tester is a device used to measure the hardness of a material, typically metals. Hardness refers to a material's resistance to indentation or scratching, and it's an important property in various industrial applications where the material's durability and strength are crucial.

The Rockwell hardness testing method involves applying a minor load followed by a major load to an indenter, which is typically a spherical ball or a conical diamond. The minor load establishes a reference position, and the major load is applied and then removed, leaving an indentation. The depth of the indentation is measured and used to calculate the Rockwell hardness value.

There are different scales within the Rockwell hardness test, denoted by letters such as "A", "B", "C", etc., each suitable for different materials and testing conditions. For example, the Rockwell scale "C" is often used for harder materials like hardened steels, while the "B" scale might be used for softer materials like aluminum.

Rockwell hardness testers are widely used in manufacturing, quality control, and research laboratories to assess the hardness of materials accurately and efficiently. They provide valuable information about a material's mechanical properties, which helps in material selection, process optimization, and quality assurance.

A binocular metallurgical microscope is a specialized type of microscope designed specifically for examining metallic materials at high magnifications. It is commonly used in metallurgy, materials science, and other fields where detailed analysis of metal samples is required.

Here are some key features and components of a binocular metallurgical microscope:

1. Binocular Head: The microscope is equipped with a binocular head, allowing two eyepieces to be used simultaneously for comfortable viewing.

2. Magnification: Binocular metallurgical microscopes typically offer a range of magnifications, often from around 50x to 1000x or higher. They may have multiple objective lenses and interchangeable eyepieces to achieve different magnification levels.

3. Illumination: Metallurgical microscopes usually feature both transmitted (bottom) and reflected (top) illumination. Transmitted illumination is used for viewing thin sections of samples, while reflected illumination is used for opaque samples. These illumination methods can be adjusted for different contrast techniques such as brightfield, darkfield, polarized light, and differential interference contrast (DIC).

4. Stage: The microscope stage is where the sample is placed for examination. It typically has X-Y controls for precise positioning of the sample under the objective lenses.

5. Objective Lenses: Metallurgical microscopes come with multiple objective lenses of different magnifications, usually ranging from low to high magnification. These lenses are specifically designed for examining metal samples and often have long working distances to accommodate the depth of the samples.

6. Polarizing Filters: Some models of binocular metallurgical microscopes may include polarizing filters, which are useful for examining the optical properties and internal structures of metal samples.

7. Camera Mount: Many modern binocular metallurgical microscopes come equipped with a camera mount, allowing for digital imaging and documentation of the samples being examined.

8. Software Integration: Some advanced models may also offer software integration for image analysis and measurement, allowing for quantitative analysis of the metal samples.

A binocular metallurgical microscope is a specialized type of microscope designed specifically for examining metallic materials at high magnifications. It is commonly used in metallurgy, materials science, and other fields where detailed analysis of metal samples is required.

Here are some key features and components of a binocular metallurgical microscope:

1. Binocular Head: The microscope is equipped with a binocular head, allowing two eyepieces to be used simultaneously for comfortable viewing.

2. Magnification: Binocular metallurgical microscopes typically offer a range of magnifications, often from around 50x to 1000x or higher. They may have multiple objective lenses and interchangeable eyepieces to achieve different magnification levels.

3. Illumination: Metallurgical microscopes usually feature both transmitted (bottom) and reflected (top) illumination. Transmitted illumination is used for viewing thin sections of samples, while reflected illumination is used for opaque samples. These illumination methods can be adjusted for different contrast techniques such as brightfield, darkfield, polarized light, and differential interference contrast (DIC).

4. Stage: The microscope stage is where the sample is placed for examination. It typically has X-Y controls for precise positioning of the sample under the objective lenses.

5. Objective Lenses: Metallurgical microscopes come with multiple objective lenses of different magnifications, usually ranging from low to high magnification. These lenses are specifically designed for examining metal samples and often have long working distances to accommodate the depth of the samples.

6. Polarizing Filters: Some models of binocular metallurgical microscopes may include polarizing filters, which are useful for examining the optical properties and internal structures of metal samples.

7. Camera Mount: Many modern binocular metallurgical microscopes come equipped with a camera mount, allowing for digital imaging and documentation of the samples being examined.

8. Software Integration: Some advanced models may also offer software integration for image analysis and measurement, allowing for quantitative analysis of the metal samples.

A binocular metallurgical microscope is a specialized type of microscope designed specifically for examining metallic materials at high magnifications. It is commonly used in metallurgy, materials science, and other fields where detailed analysis of metal samples is required.

Here are some key features and components of a binocular metallurgical microscope:

1. Binocular Head: The microscope is equipped with a binocular head, allowing two eyepieces to be used simultaneously for comfortable viewing.

2. Magnification: Binocular metallurgical microscopes typically offer a range of magnifications, often from around 50x to 1000x or higher. They may have multiple objective lenses and interchangeable eyepieces to achieve different magnification levels.

3. Illumination: Metallurgical microscopes usually feature both transmitted (bottom) and reflected (top) illumination. Transmitted illumination is used for viewing thin sections of samples, while reflected illumination is used for opaque samples. These illumination methods can be adjusted for different contrast techniques such as brightfield, darkfield, polarized light, and differential interference contrast (DIC).

4. Stage: The microscope stage is where the sample is placed for examination. It typically has X-Y controls for precise positioning of the sample under the objective lenses.

5. Objective Lenses: Metallurgical microscopes come with multiple objective lenses of different magnifications, usually ranging from low to high magnification. These lenses are specifically designed for examining metal samples and often have long working distances to accommodate the depth of the samples.

6. Polarizing Filters: Some models of binocular metallurgical microscopes may include polarizing filters, which are useful for examining the optical properties and internal structures of metal samples.

7. Camera Mount: Many modern binocular metallurgical microscopes come equipped with a camera mount, allowing for digital imaging and documentation of the samples being examined.

8. Software Integration: Some advanced models may also offer software integration for image analysis and measurement, allowing for quantitative analysis of the metal samples.

·         This machine is designed for measuring hardness of metals & alloys of all kinds, hard or soft, whether round, flat or irregular in shapes.

·         Semi-automatic, motorized, digital, microprocessor based panel. We can get hardness in digital version.

·         Centronics parallel port for connecting dot matrix printer.

·         Three modes of operation viz.  Motorized automatic mode,  Motorized mode  & Manual mode.

·         Automatic weight selection by thumb wheel.

·         Test height x Throat is – 295 x 148 mm.

Machines strictly conforms to IS:1586 / 2281, BS: 240, ASTM-E-10

A binocular metallurgical microscope is a specialized type of microscope designed specifically for examining metallic materials at high magnifications. It is commonly used in metallurgy, materials science, and other fields where detailed analysis of metal samples is required.

Here are some key features and components of a binocular metallurgical microscope:

1. Binocular Head: The microscope is equipped with a binocular head, allowing two eyepieces to be used simultaneously for comfortable viewing.

2. Magnification: Binocular metallurgical microscopes typically offer a range of magnifications, often from around 50x to 1000x or higher. They may have multiple objective lenses and interchangeable eyepieces to achieve different magnification levels.

3. Illumination: Metallurgical microscopes usually feature both transmitted (bottom) and reflected (top) illumination. Transmitted illumination is used for viewing thin sections of samples, while reflected illumination is used for opaque samples. These illumination methods can be adjusted for different contrast techniques such as brightfield, darkfield, polarized light, and differential interference contrast (DIC).

4. Stage: The microscope stage is where the sample is placed for examination. It typically has X-Y controls for precise positioning of the sample under the objective lenses.

5. Objective Lenses: Metallurgical microscopes come with multiple objective lenses of different magnifications, usually ranging from low to high magnification. These lenses are specifically designed for examining metal samples and often have long working distances to accommodate the depth of the samples.

6. Polarizing Filters: Some models of binocular metallurgical microscopes may include polarizing filters, which are useful for examining the optical properties and internal structures of metal samples.

7. Camera Mount: Many modern binocular metallurgical microscopes come equipped with a camera mount, allowing for digital imaging and documentation of the samples being examined.

8. Software Integration: Some advanced models may also offer software integration for image analysis and measurement, allowing for quantitative analysis of the metal samples.

Our company has established itself as a leading trader and supplier of superior quality Vickers Cum Brinell Hardness Tester. We comply with the industry norms and provide assorted machines in order to keep our customers contented by fulfilling their required specifications and demands. An Automatic indenter index system is provided which tilts the indenter after the impression and the magnified image is visible on the screen for measurement. These are made available to our customers at industry leading rates.

Features:

• Range of test loads
• Maximum test height
• Sharp indentations

Bridge type hardness testing machines are developed for hardness checking on heavy forgings and castings. The weight capacity of the machine can be upto 20000 kg or 20 ton. The machine has a fabricated heavy duty stress relieved and machined bed. Two vertical columns (Front and Rear) connected at top by cross beam with rails is moving on this bed in x - x direction. It is a variable speed motorized movement with rack and pinion arrangement with four wheels on each side. The cross beam is having a hydraulic cylinder piston assembly. This assembly is moving on the cross beam rail in y- y direction.

As an ace trader and supplier of Digital Rockwell Hardness Tester, we have marked our name very strongly in the market.This is motorized machine having automatic loading/unloading cycle suitable for production testing.The machine body is having a taper front look and a large size read-out in the front.We adhere to the industry protocols to provide with the variegated customer specific needs. These machines are developed by our supremely talented professionals and go through multiple rounds of quality checks before getting delivered to the designated customer.

Features:

• Automatic weight selection by thumb wheel
• Three modes of operation viz. Motorized automatic mode, Motorized mode and Manual mode
• Ease of usage

As an ace trader and supplier of Special Digital Rockwell Hardness Tester, we have marked our name very strongly in the market.This is special three elevating screw with big table on it, motorized machine having automatic loading/unloading cycle suitable for production testing.The machine is having a taper front look and a large size read-out in the front.We adhere to the industry protocols to provide with the variegated customer specific needs. These machines are developed by our supremely talented professionals and go through multiple rounds of quality checks before getting delivered to the designated customer.

Our company has earned great laurels as traders and suppliers of Deep Throat Brinell Hardness Testing Machine. These come with a well-tested design, easy servicing and reliable performance which makes it a product with an optimal pay-off.We rightly believe in the happiness of our customers and deliver the machines only after various rounds of quality checks performed by our highly efficient and skilled team members.

Features:

• Smooth functioning
• Elevating screw is guided in a ground bush
• Accuracy in operation

This is a combined Rockwell Brinell hardness testing machine used to measure hardness of metals alloys of all kinds, hard or soft, whether round, flat or irregular in shapes.

Special fixture designed for TaTa Moters, Jamshedpur for checking hardness of crankshafts in our standard Rockwell Hardness Tester
On this fixture hardness can be checked on any end diameter of cam shaft.

Dynamic balancing services are a specialized form of mechanical engineering service aimed at ensuring the smooth operation of rotating machinery. When a rotating component such as a shaft, rotor, or fan is not properly balanced, it can cause excessive vibration, noise, premature wear, and even catastrophic failure.

Dynamic balancing involves the precise measurement and correction of the mass distribution of a rotating component. This process typically involves the following steps:

1. Measurement: The rotating component is mounted on a balancing machine, which measures the amount and location of imbalance using sensors or accelerometers.

2. Analysis: The data collected from the measurement is analyzed to determine the amount and location of imbalance.

3. Correction: Based on the analysis, corrective weights are added or removed from specific locations on the component to balance it properly.

4. Re-measurement: After the correction, the component is re-measured to ensure that it has been balanced within acceptable tolerances.

Dynamic balancing is crucial for various types of rotating machinery, including industrial fans, turbines, pumps, motors, and crankshafts. Properly balanced machinery operates more efficiently, experiences less wear and tear, and is less likely to fail prematurely.

Many companies offer dynamic balancing services either as standalone services or as part of a broader range of mechanical engineering services. These services may be conducted on-site or in specialized facilities equipped with balancing machines capable of handling different sizes and types of rotating components.