Quaker Houghton’s New Fluid Testing Process

In-house lubrication testing can help clients save money and improve efficiency.

Franck Belloy, Senior Business Development Manager of Hot & Warm Forging at Quaker Houghton, explains how in-house lubrication testing can help their clients to save money and improve efficiency.

Although forging fluid products have remained quite similar for the last 20-40 years, the requirements for industrial businesses have significantly evolved. Today, more specific and technically-advanced lubricants are needed as different kinds of parts are often forged within the same industrial plants.

Lubrication performance is a combination of chemistry and lubricant application. Even though there has been progress in forging processes, dies, forging presses and alloys quality, lubrication remains a very important technical factor for forgings quality, dies life and overall productivity – which all may rely heavily on individual lubricant product performance. That’s why Quaker Houghton has designed specific forging performance laboratory tests to understand our customers’ problems and help solve them – ensuring that we remain their reliable and trusted partner for forging fluid solutions.

Unique and thorough testing process

To do this, Quaker Houghton, unlike its competitors, can now offer its customers a unique testing process for water-based lubricants (80-85% of all forging fluids used in industry) completed on-site at its forging customer solutions center. At Quaker Houghton, we prepare a variety of different in-house tests once all the necessary steps and outcomes have all been agreed with clients. Then we are able to adapt and evolve the testing procedures as necessary. For example, cooling testing might involve anything from a single test up to 10 tests before gaining the right results.

The different laboratory tests are crucial because it enables us to know that when we recommend a product, the different performance attributes of that particular product will precisely match our customers’ expectations. Then we can tweak formulations and make changes accordingly.

Quaker Houghton’s laboratory tests allow them to define the performance of each product based on the concentration and application that reduces the cost of use in four key ways:

Optimise die life by regulating temperature and applying sufficient protection in cold and hot areas.

Increase productivity through better cooling performance.

Reduce product consumption by applying the necessary dilution rate.

Improve work environment.

Cost implications of testing in production

Forging lubricant production trials typically require productivity loss, equipment and additional resources to evaluate a lubricant. Often the customer uses the forging lubricant for the manufacture of different forgings shape, different alloys, and sometimes on different forging machines. This means that there are many and varied constraints including contact time, strain rate and temperature. That’s why a compromise also must be found between the easiest and most difficult parts made with the same lubricant.

Five questions asked in the forging lab at Quaker Houghton to determine performance characteristics:

How to protect dies during a long sliding distance under high pressure by applying a sufficiently thick and resistant lubricating film in all areas (Hot & Warm), without clogging?

How to reduce the temperatures of hot zones in order to reduce the coefficient of friction but also to postpone the starting point of dies damage while ensuring that the warm zones will not become too cold?

What is the behaviour of our product use in specific recirculating system or with specific dosing system?

How difficult will it be to keep a Forging line clean?

What advice can we give to customers?

What about just lowering the coefficient of friction?

Customers often ask whether we can improve lubrication and increase die life simply by lowering the coefficient of friction. However, how can we decrease it knowing that, for a couple of materials (die and billet), the coefficient of friction increases as a function of the following factors: temperature, contact pressure, speed, sliding distance, and thermomechanical interactions (in forging each die area, each square millimeter undergoes different variations in pressure and temperature). This ensures that the coefficient of friction will never remain a constant because it will always depend on the interaction of so many variables.

Our cooling test process

The cooling test by spraying allows us to estimate the “cooling performance”, (a product’s ability to cool the die surface according to the water dilution ratio). The parameters of the cooling test by spraying are: Steel Plate Temperature 100-450°C; Pressure: 0,2 to 6 bars; Time: 0,1 to 30 s; and Distance Nozzles-Plate: 10-20 cm.

The benefits for the customer are: optimising the die life by regulating the die temperature; increasing the productivity by a better cooling rate performance, and optimising product consumption by adapting the dilution as effectively as possible. The cooling test allows us to estimate the product’s ability to touch and to cool the die surface according to the concentration, the pressure and spraying time.

Our thickness test process

The thickness test allows us to estimate the “covering & grip” power of our products according to the die temperature and the water dilution ratio. At the same time, two different forging fluids can be compared or a single product with different dilution ratios. The parameters of the Thickness test by spraying are: Steel Plate with a Temperature gradient of ≈150°C (maxi 450°C); Pressure: 0,2 to 6 bars; Speed: 1 to 50 mm/s, and Distance Nozzles-Plate: 10-20 cm. The benefits for the customer are: optimising the die life by applying sufficient die protection in cold and hot areas; and optimising product consumption by adapting the necessary dilution as effectively as possible.

Your perfect partner

The unique way that we utilise our innovative testing procedures to improve cycle times and die life-spans helps to make Quaker Houghton a trusted and reliable partner for our customers. As a company, we’re always improving and progressing by using the latest technology – and our in-house testing facilities and expertise plays a key role within that. With a wide portfolio of forging lubricants, including our new QH PRESSMAX brand, you can always rely on Quaker Houghton to deliver.

Please visit Quaker Houghton’s website for more information on our industry-leading product range: https://home.quakerhoughton.com/product-lines/forging-fluids

About Quaker Houghton
Quaker Houghton is the global leader in industrial process fluids. With a presence around the world, including operations in over 25 countries, our customers include thousands of the world’s most advanced and specialized steel, aluminum, automotive, aerospace, offshore, can, mining, and metalworking companies. 

Our high-performing, innovative and sustainable solutions are backed by best-in-class technology, deep process knowledge and customized services. With approximately 4,700 employees, including chemists, engineers, and industry experts, we partner with our customers to improve their operations so they can run even more efficiently, even more effectively, whatever comes next. 

Quaker Houghton is headquartered in Conshohocken, Pennsylvania, located near Philadelphia in the United States. Visit quakerhoughton.com to learn more.

Media Contacts
James Tomlinson, Account Director
Wyatt International
[email protected]
+44 121 454 8181

Moran Sacagiu, Business Development Executive, Porosity Sealants & Selective Plating Technology, Quaker Houghton
[email protected]
+44 (0) 2476 229373

The post Quaker Houghton’s New Fluid Testing Process appeared first on Industry Today.

Source link

Related posts

Blackline Safety Launches First EU Service Centre


Understanding the Tech: Do You Have the Right PPE?


Clean Air Zones: How Are They Affecting Truck Drivers?


Leave a Comment