SU1635048A1 - Device for testing samples under complex strained state - Google Patents

Abstract

The invention relates to a test apparatus, in particular to devices for testing samples under conditions of a complex stress state. The purpose of the invention is to improve the accuracy and enhance the functionality by providing both static and dynamic tests in a wide range of force. Plates 1-4 co-opt in pairs so that the protrusions 5 of one plate fall into the hollows of the other. The plates and the plates themselves form a chamber 14 for the sample. Then fasten with the help of the strap 11 with screws 12 knots 8 pair-wise protrusion 5 of one side of each pair between themselves and the formed block are tagged on the corresponding protrusions 5 The gauge 9 of the posterior movement is installed, with the help of which both the preliminary tightening of the knots 8 and the relative temperature of the plates 1-4, as well as the force on the knot 8 during the test are measured. The inserts are inserted into the chamber 14 and, through them, the sample is loaded under complex stress conditions at specified axial ratios transmitted through the inserts, lateral forces and lateral forces that are generated: i back-up forces from nodes 8. 3 nl (Le 00 ate loo

Description

The invention relates to a test apparatus, in particular to devices for testing samples under conditions of a complex stress state. The purpose of the invention is to improve the accuracy and enhance the functionality by providing both dynamic and static tests in a wide range of efforts,

On Fig shows a diagram of the device, side view; on the same, top view; on Fig - node I figs

The device contains two pairs of plates 1-4 with alternating protrusions 5 and valleys 6 on the sides 7 of each plate 1-4, while the protrusions 5 of one of the plates 1-4 are placed in the depressions 6 of the other plate 1-4, nodes 8 of a pair connectors of protrusions 5 of opposite plates in each pair of them, placed on each node 8 meters 9 relative sweep of plates 1–4, bushings 10, covering each node 8 and interacting with their ends with one of the ends of joint 8 and corresponding protrusion 5 plates 1–4 , and strips 11 with screws 12 connecting the plank with the corresponding This unit also contains loading inserts 13 placed in the chamber 14 formed by the plates 1-4.

The device works as follows.

Plates 1-4 are preset in pairs so that the protrusions 5 of one plate 1 enter the cavities 6 of the adjacent plate, placed at a right angle to the first plate 2 or 4 ". Then place sample 15 in the chamber formed. In each pair of opposite the protrusions 5 of the opposite parts 1, 3, and 2.4 insert the nodes 8, while the nodes 8 connecting the projections 5 of one of the sides of each pair of plates 1-4 are interconnected by a strap 11 and screws 12 and form single blocks , the number of which is equal to the number of joined pairs of sides of the plates, namely 4, with the sleeve 1C mouth Credited between one end of the unit 8 and the protrusion 5. Thereafter tightened knots 8 so that the force on each of them was measured using emye izmern- bodies 9 were equal and predetermined. Inserts

loading inserts 13 and affect them by an external static or dynamic force. Due to the use of sleeves 10 of different stiffness and different preattatizing of nodes 8, it is possible both to precisely control the conditions of two- or three-axis non-uniform loading, as well as to measure them during the tests, as well as to conduct static tests at constant lateral backwater backwater with any degree proportional to tee

The device also allows you to repeatedly use the nodes 8, changing their rigidity with the help of sleeves 10 "Dyne 1 nodes is selected from the condition

D1

one ;

ST

D1 - movement of opposing pieces 1-4 during the test; UT - yield strength of the material of the node 8o

Claims (1)

Invention Formula A device for testing samples under conditions of a complex stress state, comprising two pairs of plates with alternating protrusions and depressions on their lateral surfaces forming the chamber for the sample, mounted so that the protrusions of one plate are located in the depressions of the other; protrusions of opposing pieces, gauges for the relative movement of the plates and inserts placed in the chamber, characterized in that, in order to increase the accuracy and enhance the functionality by providing as physical and static tests in a wide range of forces, the device is equipped with bushings covering each of the connection nodes and the wire, acting with its ends with the connection node and the corresponding plate, and the bar with the screws connecting the bar with the corresponding connection node, and the gauges regarding movement fixed on each of the nodes of the connection " ten 1Z