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/home2/equiters/public_html/products.php on line 318Photoelastic Experiments with Transmission Polariscope
Lab Code: ALABS-A179-101
Photoelastic Experiments with Transmission Polariscope Photoelasticity is a tried and proven method of analysing and recording mechanical stre...
Stress and Strain Analysis Thick Walled Cylinder
Lab Code: ALABS-A179-102
Stress and Strain Analysis Thick Walled Cylinder In contrast to thin-walled vessels, when designing thick-walled vessels allowance must be mad...
Stress and Strain Analysis Thin Walled Cylinder
Lab Code: ALABS-A179-103
Stress and Strain Analysis Thin Walled Cylinder The findings obtained from the experiments using demonstrate the calculation and design method...
Stress and Strain Analysis Membrane
Lab Code: ALABS-A179-104
Stress and Strain Analysis Membrane In experimental stress and strain analysis, strain gauges are used to determine stresses and strains ...
Multi Channel Measurement Amplifier
Lab Code: ALABS-A179-105
Multi Channel Measurement Amplifier Stresses and strains occurring in components are determined in experimental stress and strain analysis by ...
/home2/equiters/public_html/products.php on line 318Strain Gauge Application Set
Lab Code: ALABS-A179-106
Strain Gauge Application Set Measurement using strain gauges is the most important method of measuring mechanical strain. In this measurement m...
Determining Gauge Factor of Strain Gauges
Lab Code: ALABS-A179-107
Determining Gauge Factor of Strain Gauges As universal aids to experimental stress and strain analysis, strain gauges enable mechanical strain...
Strain Gauge Training System
Lab Code: ALABS-A179-108
Strain Gauge Training System Strain gauges are used extensively in sensor systems to detect forces, moments and deformations. The experim...
Determining Gauge Factor of Strain Gauges
Lab Code: ALABS-A179-109
Determining Gauge Factor of Strain Gauges As universal aids to experimental stress and strain analysis, strain gauges enable mechanical strain...
/home2/equiters/public_html/products.php on line 318Verification of Stress Hypotheses
Lab Code: ALABS-A179-110
Verification of Stress Hypotheses Stress hypotheses are applied in the science of the strength of materials when calculating comparative stres...
/home2/equiters/public_html/products.php on line 318Unsymmetrical Bending
Lab Code: ALABS-A179-111
Unsymmetrical Bending Symmetrical bending of a beam – also known as uniaxial bending - occurs when the load plane coincides with on...
Buckling Behaviour of Bars
Lab Code: ALABS-A179-112
Buckling Behaviour of Bars 1. Investigation and testing of all relevant buckling cases 2. Verification of the Euler Theory of buckling 3. Experime...
/home2/equiters/public_html/products.php on line 318Demonstration of Euler Buckling
Lab Code: ALABS-A179-113
Demonstration of Euler Buckling In stability theory, the four cases of Euler buckling represent the elastic flexural buckling of straight ...
/home2/equiters/public_html/products.php on line 318Investigation of Simple Stability Problem
Lab Code: ALABS-A179-114
Investigation of Simple Stability Problem Buckling is a stability problem which occurs in practice when slim components are subjec...
Hookes Law Apparatus
Lab Code: ALABS-A179-115
Hooke’s Law Apparatus Hooke’s law describes the elastic behaviour of components where deformation is proportional...
/home2/equiters/public_html/products.php on line 318Deformation of Trusses
Lab Code: ALABS-A179-116
Deformation of Trusses When a component is placed under load it undergoes elastic deformation. This deformation can be calculated by determini...
Deformation Curved Axis Beam
Lab Code: ALABS-A179-117
Deformation Curved Axis Beam In construction engineering, a distinction is made between beams and arches. An arch is a statically indeterminat...
/home2/equiters/public_html/products.php on line 318Deformation of Frames
Lab Code: ALABS-A179-118
Deformation of Frames A frame is a bent beam with rigid corners which creates a so-called structure gauge. This means that it spans a gap wh...
/home2/equiters/public_html/products.php on line 318Deformation of Bars under Bending or Torsion
Lab Code: ALABS-A179-119
Deformation of Bars under Bending or Torsion Technical Description: Bending and torsion are typical loads to which components are su...
/home2/equiters/public_html/products.php on line 318Torsion of Bar
Lab Code: ALABS-A179-120
Torsion of Bar Torsion occurs primarily on axles and drive shafts in motor vehicles and machines. The torsion occurring in the shaft cause cr...
/home2/equiters/public_html/products.php on line 318Method to Determine the Elastic Line
Lab Code: ALABS-A179-121
Method to Determine the Elastic Line Beams are key structural elements in mechanical engineering and in construction which are subject to defo...
Deformation of Straight Beam
Lab Code: ALABS-A179-122
Deformation of Straight Beam Beams are key structural elements in mechanical engineering and in construction. A beam is a bar-shaped component...
/home2/equiters/public_html/products.php on line 318Parabolic Arch
Lab Code: ALABS-A179-123
Parabolic Arch Parabolic arches are popular elements in construction engineering. They can be employed as bridges or beams for example. Norma...
Supplementary Set Gear Wheel
Lab Code: ALABS-A179-124
Supplementary Set Gear Wheel Supplementary set Gear Wheel extends the scope of experiments which can be performed with Fundamentals of static:...
Shear Force and Bending Moment Diagram
Lab Code: ALABS-A179-125
Shear Force and Bending Moment Diagram Statics observes the effect of forces on a rigid body, ignoring any possible deformations which may occ...
Shear Force Diagram
Lab Code: ALABS-A179-126
Shear Force Diagram Shear Force Diagram consists of a beam mounted on two supports which is subjected to point loads. The beam is ...
Bending Moment Diagram
Lab Code: ALABS-A179-127
Bending Moment Diagram This consists of a beam mounted on two supports which is subjected to point loads. The beam is cut at one ...
/home2/equiters/public_html/products.php on line 318Cable Under Dead Weight
Lab Code: ALABS-A179-128
Cable Under Dead Weight Free-hanging cables and ropes are often used to support a structure, such as stay cables. On suspension br...
/home2/equiters/public_html/products.php on line 318Forces Suspension Bridge
Lab Code: ALABS-A179-129
Forces Suspension Bridge Suspension bridges are among the oldest of all bridge designs. Their main supporting element is a flexible cable. Sinc...
/home2/equiters/public_html/products.php on line 318Gerber Beam
Lab Code: ALABS-A179-130
Gerber Beam Many bridges are executed as Gerber beams. Bridges are subjected to moving loads. Consequently, it is important to take these mo...
/home2/equiters/public_html/products.php on line 318Three Hinged Arch
Lab Code: ALABS-A179-131
Three Hinged Arch Bridges are often constructed as three-hinged arches. This type of construction is particularly suitable when compression-p...
Friction on Inclined Plane
Lab Code: ALABS-A179-132
Friction on Inclined Plane Friction experiments on the inclined plane help students to understand the fundamentals of mechanical ...
/home2/equiters/public_html/products.php on line 318Bearing Friction
Lab Code: ALABS-A179-133
Bearing Friction Bearing Friction provides experiments relating to friction on sliding and rolling bearings. Bearing shells in various mater...
/home2/equiters/public_html/products.php on line 318Forces Various Single Plane Trusses
Lab Code: ALABS-A179-134
Forces Various Single Plane Trusses The object of the experiment is to measure the bar forces in a single plane truss subjected to a sing...
/home2/equiters/public_html/products.php on line 318Forces Overdeterminate Truss
Lab Code: ALABS-A179-135
Forces Overdeterminate Truss Overdeterminate trusses are employed where overdimensioning is purposely required because safety must be maintain...
/home2/equiters/public_html/products.php on line 318Forces in a Howe Truss
Lab Code: ALABS-A179-136
Forces in a Howe Truss As light-weight structures offering a high degree of rigidity, trusses are employed in th...
/home2/equiters/public_html/products.php on line 318Truss Beam Warren Girder
Lab Code: ALABS-A179-137
Truss Beam Warren Girder Warren truss beams are frequently used on steel constructions.Experiments with the truss Warren Girder ar...
/home2/equiters/public_html/products.php on line 318Fundamentals of Mechanical Friction
Lab Code: ALABS-A179-138
Fundamentals of Mechanical Friction The unit is used to determine coefficients of friction, it provides fundamental experiments relating to st...
Dry Friction
Lab Code: ALABS-A179-139
Dry Friction Technical Description: Friction is a key factor in mechanical engineering. Static friction needs to be adequate to fix ...
Supplementary Set Pulley Blocks
Lab Code: ALABS-A179-140
Supplementary Set Pulley Blocks Supplementary set Pulley Blocks extends the scope of experiments which can be performed with Funda...
Forces in a Crane Jib
Lab Code: ALABS-A179-141
Forces in a Crane Jib Based on the example of a crane jib, forces are determined graphically and experimentally: resultant cable ...
/home2/equiters/public_html/products.php on line 318Forces Simple Bar Structure
Lab Code: ALABS-A179-142
Forces Simple Bar Structure In the single plane system the bars are only subjected to compression and tension. Loads are...
Equilibrium Moments Two Arm Lever
Lab Code: ALABS-A179-143
Equilibrium Moments Two Arm Lever This is used to investigate the fundamentals of the equilibrium of moments based on the example ...
/home2/equiters/public_html/products.php on line 318Equilibrium Single Plane, Statically Determinate System
Lab Code: ALABS-A179-144
Equilibrium Single Plane, Statically Determinate System The experiment is an example of the application of static conditions of eq...
/home2/equiters/public_html/products.php on line 318Inclined Plane and Friction
Lab Code: ALABS-A179-145
Inclined Plane and Friction Supplementary set extends the scope of experiments which can be performed with elastic deflection of a...
/home2/equiters/public_html/products.php on line 318Fundamentals of Statics
Lab Code: ALABS-A179-146
Fundamentals of Statics The experimental unit demonstrates fundamental principles of statics such as the equilibrium of forces and moments, ...
Statics and Vibrations
Lab Code: ALABS-A179-147
Statics and Vibrations This apparatus is intended to represent a simple application of a suspended beam and may be used to determin...
/home2/equiters/public_html/products.php on line 318Mechanical and Automotive Mechanism
Lab Code: ALABS-A179-148
Mechanical and Automotive Mechanism The Sanderson Universal Bench Mounted Frame provides a very sensible alternative to to w...
