Wideoekstensometry i Ekstensometry Laserowe
Systemy Cyfrowej Koleracji Obrazu
Systemy Elektronicznej Interferometrii Plamkowej
Projektowanie stanowisk badawczych
Oporogramowanie systemowe
Programowanie metod badawczych
Czujniki MTS
Czujniki InterfaceForce
Czujniki Momentu Obrotowego do 1200 Nm i 12000 obr/min
Acumen
Bionix Landmark
Tytron MiniBionix
Stanowiska Badawcze
Wielokanałowe Kontrolery
Bezkontaktowa Analiza Odkształceń
Testowanie Konstrukcji
Badanie Materiałów Konstrukcyjnych
Badanie Wytrzymałości Mocowań
Badanie Betonu
Symulatory Sejsmiczne
Badanie Konstrukcji Budowlanych i Drogowych
Sterowanie Maszyn Wytrzymałościowych
Zaawansowana Kompensacja Adaptacyjna
Wielokanałowe Kontrolery Czasu Rzeczywistego
Badania Jednosiowe
Ściskanie ze Ścinaniem
Komory Trójosiowe do 1400 Atmosfer
Testowanie Komponentów
Wieloosiowe Stanowiska Badawcze
Zaawansowane Symulatory Drogi
Badania do 1000 Hz
Maszyny Osiowo-Skrętne
Maszyny Dynamiczne od 10 kN do 30 000 kN
Biomateriały, Elastomery, Metale, Skały, Kompozyty...
Testy Statyczne, Dynamiczne, Zmęczeniowe...
Testy Zgodne z EN, ISO, ASTM...
Serwozawory
Siłowniki Hydrauliczne
Zasilacze Hydrauliczne SilenFlo
Badanie Dużych Sił
Symulatory Obciążeń Drogowych i Kolejowych
Złożone Wielosiowowe Stanowiska Badawcze

Elektrodynamiczne Stoły Wibracyjne

- systemy ze wzbudnikami elektrodynamicznymi

Thermotron Vibration dsx8000
- systemy udarów powtarzalnych Shock Vibration System, RSL, SCI

 Thermotron Repetitive Shock IMG0843

Independent Impactor Control-Impactors can be accurately synchronized to deliver bursts of high G shock events or randomly unsynchronized to provide true random white noise energy covering a wide frequency range. There is complete control over how hard and frequent each impactor strikes the table. RSL SCI tables can now be configured to run multi-point control, that is to say, specific areas or sections of the table can be controlled separately. Therefore, table quadrants will be set to be more accurately tuned for peak consistency and performance.
Reduces Picket Fencing Effect-Forced random impacts eliminate the spiky harmonic effect of repetitive shock hammers operating from a single compressed air source.
Low Energy Advantage-The new patented SCI impactor is capable of varying both the amplitude and frequency of the strike, and can do more fatigue damage at a lower Grms level than the comparable industry standard table at a higher Grms levels. This table has more energy at frequencies below 200 hz than any other table on the market.
Energy Uniformity-Extremely consistent axis-to-axis uniformity. Quadrant-to-quadrant table uniformity is maintained to a tight tolerance and can be configured to respond and compensate to impactor wear. This level of consistency is especially vital when it comes to HASS, where repeatability is paramount to provide accurate production stress screening.
Finds Failures Faster-Dual strike impactors impart higher levels of fatigue to accelerate the time it takes for failures to manifest themselves.
Energy Saver-The new dual strike impactor uses 40% less compressed air than traditional single strike impactor designs. A new "green" setting limits the consumption of compressed air, electricity and LN2 which especially beneficial in production HASS screening applications.
Equipment Durability-SCI impactor technology has been thoroughly tested and proven to last over 5,000 hours under the rigorous stress environments of HALT & HASS. One of the inherent beauties of SCI technology is its ability to automatically compensate for wear conditions. As an aged impactor begins to exhibit signs of wear, intelligent controls can alter the amplitude and/or frequency of impact to maintain the integrity and consistency of the vibration profile.