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Six Quick Steps to a Successful Ultrasonic Assembly
Latest company news about Six Quick Steps to a Successful Ultrasonic Assembly

 

Do you have an application that you think could be ultrasonically assembled? Wondering how to get from a couple of pieces of plastic to an assembled part?


This is how our engineers tackle an application. While we don’t expect our customers to perform each of these steps, it’s important they be involved in this process. That way they’ll have a better understanding of their systems and know how to maximize the ultrasonic equipment’s potential.

 

 

Step 1 – Determine the feasibility of ultrasonic:


First examine the components to be ultrasonically assembled. They must be thermoplastics, and if dissimilar plastics are to be welded, they must be compatible (refer to Thermoplastic Compatibility Guide). The parts must also be designed so ultrasonic energy can be efficiently transmitted to the joint.
Using the Amplitude Reference Chart, determine the amplitude requirements of the thermoplastic you’re using. If possible, process a few parts to verify you have sufficient amplitude. Consider using special ultrasonic horn coatings or horn materials if fillers or additives are used in the plastic components.
The last step is to consider your ultrasonic tooling options. Is it even possible to build an ultrasonic horn that will provide the necessary amplitude to the part? Will you need multiple horns or a composite horn? Can the parts be properly supported in a fixture?

 

 

Step 2 – Choose the right ultrasonic welding equipment:


Once you determine ultrasonic is a viable assembly method for your application, it’s time to choose your welding equipment. Your application and future project needs will dictate whether you need 15, 20, 30 or 40 kHz equipment. The 20 kHz ultrasonic welding system is more versatile, as it can process a variety of part sizes. It’s also ideal when higher amplitudes are needed to melt the plastic. A 40 kHz ultrasonic welding system is usually used for smaller, more delicate applications. Your application will also determine the wattage of your generator (200 to 5,000 watts). Traditionally, the bigger your part and horn, the more wattage you’ll need to run the horn at full amplitude.

How you’ll apply the ultrasonic energy to your parts is another consideration. Hand-held probes are ideal for applications where it’s more convenient to bring the ultrasonic to the part. When control and repeatability are critical, a press system would be recommended. If production rates require speeds that exceed what could be achieved by a standard press, a rotary index parts handling system should be used. Custom mounting and automation of ultrasonic thrusters are other possibilities.
Your ultrasonic engineer can help you design your system to meet other specific application needs such as process control and SPC, cooling requirements, and sound enclosures.

 

 

Step 3 – Assemble and Install the ultrasonic tooling:


Because transducers alone cannot generate enough amplitude to melt the plastic material, your ultrasonic tooling and applications engineer will determine the gain factor that’s needed from the horn to match the amplitude requirement of the thermoplastic. Based on that gain factor, he or she will select the appropriate booster and horn combination.
You’ll need to assemble the transducer, booster, and horn but first examine all mating surfaces for flatness and cleanliness. Remove any foreign matter from the threaded studs and mating holes. Coat one contact surface of each stack component with a thin layer of high pressure grease – but do not grease the studs. Thread the components together and tighten by applying a torque of no less than 13 foot-lbs (17.63 Newton-meters), but no more than 18 foot-lbs. (24.40 Newton-meters).
Once you’ve assembled the stack, install it into your system by following the easy directions in the operations manual. Make sure it aligns with the fixture; use feeler gauges or carbon paper if this becomes difficult.

 

 

Step 4 – Set up the welding equipment:


After following the simple setup procedures in the operations manual, you should be ready to set the initial press force, trigger force, weld time, and velocity. Set the mechanical stop (so the horn and fixture don’t accidentally make contact), then determine whether the ultrasonic need to be activated before contacting the parts. If so, use the pre-trigger feature.
If you’re using a process controller, determine and set the most effective primary process control. Welding by distance, peak power, and absolute distance are the most common controls, although welding can also be controlled by time and energy.

 

 

Step 5 – Adjust the setup:


After you’ve set up your ultrasonic tooling and welding equipment, don’t go into full production – run a batch or two of sample parts. Examine and test (as needed) the assembled parts. If process adjustment is needed, refer to the application troubleshooting section in the “Guide to Ultrasonic Plastics Assembly” to help diagnose probable causes and solutions.

 

 

Step 6 – Maintain proper operating conditions:


However, to maximize your welding equipment’s life and performance, it’s important to do some minor cleaning and inspecting after every 500 hours of operation. This includes: removing dust/dirt from the guide rods; applying light oil to the exterior of the air cylinder rod; inspecting the wiring to the thruster head; inspecting the air filter; tightening the thruster and fixture mounting bolts (if needed); checking the setup parameters; and inspecting, cleaning, lapping and re-torquing the stack.

 

Pub Time : 2019-09-10 10:22:26 >> News list
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