Aerospace

Team Corporation has been a major supplier to the Aerospace market of sophisticated and highly functional vibration test equipment for several decades. Our core competency of custom system design relying on a disciplined engineering approach to solving difficult vibration system challenges has resulted in the development of a number of unique and effective system designs. One example of these system designs is the NASA Plum Brook Mechanical Vibration Facility, the largest vibration test system in the world. But however large or small, Team strives to provide the optimum combination of performance and value.

Aerospace
Acoustic Modulators
Acoustic Modulators —

Team has been delivering extremely high powered acoustic modulators to the aerospace market for over 30 years. Based upon a design originally developed by Northrop Grumman, the MK VI and MK VII Acoustic Modulators currently available have been optimized for robust operation in perhaps the most severe environment imaginable, the heart of a reverberant chamber or progressive wave tube. Read More

 

CUBE™
CUBE™ —

Being able to reproduce the full spectrum of field environments by simultaneous excitation of all degrees of freedom (DoF) is widely recognized as the ideal means to subject any test object to realistic stress accumulation. Read More

Head Expanders
Head Expanders —

Vertical excitation of a test object requires a mounting platform designed to be as stiff, yet light weight as possible; stiff to minimize influence on test results and light weight to conserve shaker force. This means the dynamic response of the mounting platform, or Head Expander must have the first mode outside the test band, or if within the test band, the response must be very well damped. Read More 

Horizontal Test System
Horizontal Test System —

As the recognized leader in high performance servo hydraulic vibration test systems, Team has considerable history developing and delivering both conventional and unique Horizontal Test Systems. Team’s solutions are typically based upon two proprietary products in Team's arsenal of vibration components, the HydraShaker and the T-Film Slip Table. Read More

Large Platform Systems
Large Platform Systems —

Team’s core competency is custom system design, utilizing the best engineering practices and sophisticated modeling tools to ensure that the estimated performance targets are met. This focus has led to many firsts, including the largest vibration test system ever installed, at NASA’s Plum Brook facility for subjecting full scale spacecraft ... Read More

Linear Actuators
Linear Actuators —

Team’s Linear Actuators, or HydraShakers, are a fundamental component in virtually every vibration test system delivered since the late 1950s. Designed specifically for use in producing controllable vibration response, the HydraShaker is optimized for performance, fatigue rated and using hydrostatic bearing ...  Read More

MANTIS™
MANTIS™ —

The most common multi-axis test system in use today is called a MAST system, or Multi-axis Simulation Table. Very effective in reproducing measured road data, MAST systems are generally limited to fairly low frequencies; typically less than 50 Hz.  The actuator to table connection is generally a rod end bearing, prone to corrupting system response if not properly preloaded ... Read More

Pad Bearings
Pad Bearings —

Developing and applying hydrostatic bearing and coupling technology is a core competency of Team Corporation. One product unique to Team’s vibration system set of components is the Pad Bearing, a fully hydrostatic single degree of control coupling. The combination of a planar and spherical hydrostatic surface permits a highly transmissible connection in compression ... Read More

RVC400 Torsional Test System
RVC400 Torsional Test System —

Certain critical electronics devices are subjected to rotational vibration environments that can be difficult to reproduce in the laboratory. For example, hard disk drives (HDD) are used to store the most sensitive information imaginable, and are expected to operate reliably for many years. Read More

T-Film Slip Tables
T-Film Slip Tables —

An outstanding example of how correct application of hydrostatic linear bearing technology can provide sizeable advantages to horizontal test systems is the T-Film Slip Table. Team’s T-Film Slip Table designs use modular hydrostatic linear bearings, operating with only 600 psi hydraulic oil supply, vs. the 3,000 psi oil typically required by hydrostatic journal bearings. Read More

Hydrostatic Spherical Couplings
Hydrostatic Spherical Couplings —

The alignment of a linear exciter to a moving table or test object, and maintaining a highly transmissible connection, is a challenge for vibration equipment designers and installation crews. Under stress, a table or test object may experience dynamic deformation which may place eccentric loading into the exciter shaft or armature. Read More

T8/V8 Linear Hydrostatic Bearings
T8/V8 Linear Hydrostatic Bearings —

Defining a single line of motion while simultaneously restraining all other degrees of freedom is the function of any linear bearing. Team’s T8 & V8 Hydrostatic Linear Bearings were introduced more than 40 years ago to perform precisely that task and remain the undisputed top choice for accuracy, load carrying capacity and ruggedness.  Read More

TENSOR 900™ & 18kN
TENSOR 900™ & 18kN —

The TENSOR™ represents state-of-the-art advancement in multi-axis testing capability. Using 12 proprietary electrodynamic shakers to drive a single table, each TENSOR™ model can precisely control the amplitude and phase of the table response in all degrees of freedom through 2 kHz.  Read More

Vertical Test Systems
Vertical Test Systems —

Vertical test systems typically range from systems used to simulate transportation environments for package testing of consumer products to very large systems used to simulate the launch environment experienced by spacecraft. Team Corporation excels at both ends of the spectrum, producing some of the highest performance Vertical Test Systems ever delivered. Read More