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Overview of Total Materia database 12. januar 2022.

Overview of Total Materia database 13. januar 2022.

• O nama

Total Materia nam je omogućila da rešimo na nedvosmislen način sve probleme koje smo imali u vezi sa pretragom alternativnih materijala u stranim državama. Zahvaljujuci Total Materiji izdali smo stvarnu "međunarodnu" specifikaciju za nabavku čelika u stranim zemljama.

Total Materia ostaje jedino sredstvo koje ćemo koristiti u ove svrhe.

Massimo Manfredini
Bonfiglioli Industrial Gearmotors, Bolonja, Italija

Naša misija je jednostavna;
da Total Materia postane
prvi i jedini
izbor inženjera
širom sveta

Prof. Dr Viktor Pocajt, CEO
Key to Metals AG

Resilience

Sažetak:

The ability of a material to absorb energy when deformed elastically and to return it when unloaded is called resilience. This is usually measured by the modulus of resilience, which is the strain energy per unit volume required to stress the material from, zero stress to the yield stress. The toughness of a material is its ability to absorb energy in the plastic range. The ability to withstand occasional, stresses above the yield stress without fracturing is particularly desirable in parts such as freight-car couplings, gears, chains, and crane hooks. Toughness is a commonly used concept, which is difficult to pin down and define.

The ability of a material to absorb energy when deformed elastically and to return it when unloaded is called resilience. This is usually measured by the modulus of resilience, which is the strain energy per unit volume required to stress the material from, zero stress to the yield stress s. The strain energy per unit volume for uniaxial tension is

 (1)

From the above definition the modulus of resilience is

 (2)

This equation indicates that the ideal material for resisting energy loads in applications where the material must not undergo permanent distortion, such as mechanical springs, is having a high yield stress and a low modulus of elasticity. Table 1 gives some values of modulus of resilience for different materials.

Table 1. Modulus of resilience for various materials

 Material E, psi s0, psi Modulus of resilience, Ur Medium-carbon steel 30×106 45000 33,7 High-carbon spring steel 30×106 140000 320 Duraluminium 10,5×106 18000 17,0 Cooper 16×106 4000 5,3 Rubber 150 300 300 Acrylic polymer 0,5×106 2000 4,0

Toughness

The toughness of a material is its ability to absorb energy in the plastic range. The ability to withstand occasional, stresses above the yield stress without fracturing is particularly desirable in parts such as freight-car couplings, gears, chains, and crane hooks. Toughness is a commonly used concept, which is difficult to pin down and define. One way of looking at toughness is to consider that it is the total area under the stress-strain curve. This area is an indication of the amount of work per unit volume, which can be done, on the material without causing it to rupture. Figure 1.2 shows the stress-strain curves for high- and low-toughness materials. The high-carbon spring steel has a higher yield strength and tensile strength than the medium-carbon structural steel. However, the structural steel is more ductile and has a greater total elongation. The total area under the stresstrain curve is greater for the structural steel, and therefore it is a tougher material. This illustrates that toughness is a parameter that comprises both strength and ductility. The crosshatched regions in Fig. 1 indicate the modulus of resilience for each steel. Because of its higher yield strength, the spring steel has the greater resilience.
Several mathematical approximations for the area under the stress-strain curve have been suggested. For ductile metals that have a stress-strain curve like that of the structural steel, the area under the curve can be approximated by either of the following equations:

 (3)

 (4)

For brittle materials the stress-strain curve is sometimes assumed to be a parabola, and the area under the curve is given by

 (5)

Figure 1. Comparison of stress-strain curves

All these relations are only approximations to the area under the stress-strain curves. Further, the curves do not represent the true behavior in the plastic range, since they are all based on the original area of the specimen.

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U Total Materia Extended Range obuhvata jedinstvenu kolekciju dijagrama napon-deformacija za nekoliko hiljada materijala, različite vrste termičke obrade i radne temperature. U bazi postoje stvarne i inženjerske krive napon-deformacija za različite vrednosti brzine deformacije.

Pretraga dijagrama napon-deformacija oduzima samo nekoliko sekundi.

Unesite materijal u odgovarajuće polje Brze pretrage. Pretragu možete suziti odabirom zemlje/standarda, a nakon toga kliknite na Pretražite.

Kada odaberete materijal koji Vas interesuje, kliknite na link Dijagrami napon-deformacija da biste videli podatke za odabrani materijal. Broj zapisa o dijagramima napon-deformacija se prikazuje u zagradama pored linka.

Pošto su Total Materia krive napon-deformacija neutralni u odnosu na specifikacije standarda, možete ih pregledati klikom na odgovarajući link u bilo kojoj podgrupi.

Pored krivih napon-deformacija na različitim temperaturama, tačke sa dijagrama su date u formi tabele radi lakšeg kopiranja u, na primer, CAE softver.

Moguće je, takođe, videti dijagrame napon-deformacija na drugim radnim temperaturama.

Da biste ovo uradili, jednostavno unesite novu temperaturu u polje Unesite temperaturu.

Nakon što kliknete na dugme Izračunaj, nova kriva će biti iscrtana, a tačke koje odgovaraju definisanoj temperaturi biće prikazane u tabeli pored. Vidite primer ispod, za temperaturu 250°C.

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