Component testing – test method creation and optimization
You set the task – together we develop the solution
pipe opening test
Spring test F2-F1/S2-S1=N/mm
compression hardness test ASTM D 1056
One of the most common testing tasks in industry is the testing of components. In the simplest form, a component is subjected to tensile or compressive stress at a specified speed until it fails. As a result, the maximum force is often sufficient to cause damage. In many cases, in addition to determining Fm, other parameters or types of loading are required.
seminar subject
The subject of the seminar is based on the wishes of the participants. Bring your test samples and test instructions to this seminar and get simple and clear instructions on how to use a GALDABINI universal testing machine / Tensile testing machine create and use the optimal test method for your requirements
Possible testing methods (depending on the wishes of the participants)
- Component testing to determine Fm (tension or compression)
- Creep test – load the component using a force ramp, hold the test load for 30 seconds and then release it
- Pipe crown pressure: A pipe is loaded radially and subjected to a constant load for 15 seconds. Results:
- pipe diameter at the start of the test
- pipe diameter at the end of the test
- difference calculation deformation path
- max. force (no overload)
- minimum test load during the holding phase (proof of the prescribed load)
- Time at the end of the load (compliance with the load duration
- Axial pipe test (components): A pipe is subjected to a specified load between two pressure plates. After reaching Fm, the load is removed without a holding phase. Results
- max. test load
- Deformation path 1 in the loading phase at force X
- Deformation path 2 in the unloading phase at the same force X
- difference calculation deformation path
- pipe length before test
- Peeling experiment: An adhesive strip is peeled off from a carrier.
Results:- Adhesive strength N/mm (Newton / width of the adhesive strip)
- medium adhesive strength
- adhesive strength of the highest tip
- mean of the upper peaks
- mean of the upper peaks
- Difference between the highest peak and the lowest peak
- spring test
Results:- F1 at L1
- F2 at L2
- Spring rate
Seminar | Appointments | Time | weekday | places open |
BXX-25 | xx.xx.2025 | 08: 30 - 16: 30 h (open end until the finish) |
Mi. | 9 |
BXX-22 | xx.xx.2025 | 08: 30 - 16: 30 h (open end until the finish) |
Mi. | 9 |
Participants min. |
3 (if this number of participants is not reached, we reserve the right to postpone the seminar) |
participants max. |
8 (limit for effective training) |
Sign in |
by email to: info(a)schuetz-licht.de |
Seminar fee | € 350,00 |
Meals |
during the seminar – including |
Accommodation |
can be arranged (at more favorable conditions) |
How to reach us |
depending on travel distance: On the seminar day / the day before |
After receiving your registration you will receive a confirmation and an invoice.
Course withdrawal/deregistration: This course requires a considerable amount of organizational effort on the part of the participants and within SCHÜTZ+LICHT. Participants sometimes book flights that cannot be canceled. We therefore ask for your understanding that we cannot accept cancellations of participation shortly before the start of the seminar.
Therefore, cancellations must be made in writing. Irrespective of the statutory right of cancellation, we grant a cancellation period of 21 days before the start of the seminar. In this case, we will refund 90% of the course fee. If you cancel later, do not show up or end your participation early, no refund will be made. In all cases, the date of receipt of the cancellation by our company is decisive.
It is possible to name a substitute participant.