PL114493B2 - Method of investigating influence of thermal gradient on structural changes of alloys - Google Patents

Method of investigating influence of thermal gradient on structural changes of alloys Download PDF

Info

Publication number
PL114493B2
PL114493B2 PL20508678A PL20508678A PL114493B2 PL 114493 B2 PL114493 B2 PL 114493B2 PL 20508678 A PL20508678 A PL 20508678A PL 20508678 A PL20508678 A PL 20508678A PL 114493 B2 PL114493 B2 PL 114493B2
Authority
PL
Poland
Prior art keywords
alloys
thermal gradient
structural changes
test sample
sample
Prior art date
Application number
PL20508678A
Other languages
Polish (pl)
Other versions
PL205086A1 (en
Inventor
Zygmunt Raczynski
Original Assignee
Politechnika Rzeszowska
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Politechnika Rzeszowska filed Critical Politechnika Rzeszowska
Priority to PL20508678A priority Critical patent/PL114493B2/en
Publication of PL205086A1 publication Critical patent/PL205086A1/en
Publication of PL114493B2 publication Critical patent/PL114493B2/en

Links

Landscapes

  • Sampling And Sample Adjustment (AREA)
  • Investigating And Analyzing Materials By Characteristic Methods (AREA)

Description

Przedmiotem wynalazkujest sposób przeprowadzania badan wplywu gradientu cieplnego na zmiany struktu¬ ralne stopów.Zwiekszenie wlasnosci zarowytrzymalych stopów sto¬ sowanych zwlaszcza doprodukcji lopatek silników turbi¬ nowych mozna uzyskac w wyniku uzycia do ich produkcji stopów eutektycznych o budowie lamelarnej.Lopatki turbin wytworzone z tych stopów na ogól chlo¬ dzone sa od wewnatrz, w wyniku czego pomiedzy powierzchnia zewnetrzna i wewnetrzna tych lopatek powstaje bardzo wysoki gradient cieplny. Powoduje on nieodwracalne zmiany w strukturze lopatek prowadzac do spadku ich wlasnosci wytrzymalosciowych.Dotychczas badanie wplywu gradientu cieplnego na stopach o strukturze eutektycznej przeprowadza sie na specjalnym urzadzeniu zaopatrzonym w uklad pró¬ zniowy, wyrzutnie elektronów i uklad chlodzacy. Sposób dokonywania badan polega na tym, ze badana próbke umieszcza sie na bloku metalowym tego urzadzeniachlo¬ dzonym woda, a jej górna powierzchnie nagrzewa siedo stanu cieklego za pomoca wiazki elektronów, przy czym pomiedzy powierzchnia próbki i wiazka elektronów wyt¬ warzana jest próznia. W wyniku bardzo duzej róznicy temperaturpomiedzy powierzchniapróbki ijej podstawa otrzymuje sie wjej wnetrzu bardzo wysoki staly gradient cieplny.Stosowanie tej metody badan jest bardzo kosztowne, gdyz wymaga uzycia specjalnej aparatury do wytworze¬ nia wiazki elektronów.Celem wynalazkujest wyeliminowanie przytoczonych niedogodnosci.Zgodnie z wynalazkiem cel ten nieoczekiwanie uzy¬ skanodzieki temu, ze nabadanej próbceumieszczonej na bloku metalowym chlodzonym woda kladzie sie plytke z metalu wysokotopliwego, najkorzystniej tantalu, która nagrzewa sie palnikiem acetylenowo-tlenowym az do momentu, gdy górna powierzchnia badanej próbki zacznie sie topic.Zaletami sposobu wedlug wynalazku sa duza prostota przeprowadzania badan i niski koszt tych badan dzieki wyeliminowaniu nagrzewania próbki za pomoca wiazki elektronów.Sposób wedlug wynalazku jest blizej objasniony w przykladzie wykonania na rysunku.Sposób przeprowadzania badan wplywu gradientu cieplnego na zmiany strukturalne stopów polega na tym, ze na bloku 1 metalowym, chlodzonym woda, umieszcza sie próbke 2 badana, na która kladzie siecienka plytke 3 tantalowa. Nastepnie powierzchnie tej próbki od góry nagrzewa sie palnikiem 4 acetylenowo-tlenowym, az do momentu gdy górnapowierzchnia 5 tejpróbki zaczniesie topic, powodujac powstanie duzego gradientu cieplnego pomiedzy górna powierzchnia5próbki2ijejpodstawa4.Sposób wedlug wynalazku moze znalezc zastosowanie równiez przy badaniu stopów o innej strukturze, zwla¬ szcza w przypadkach prowadzenia badan symulujacych ich prace w warunkach wysokiego gradientu cieplnego.Zastrzezenie patentowe Sposób przeprowadzania badan wplywu gradientu cieplnego na zmiany strukturalne stopów, polegajacy na3 114 493 4 nagrzewaniu badanej próbki umieszczonej na bloku najkorzystniej palnikiem (4) acetylenowo-tlenowym, az metalowym chlodzonym woda. znamienny tym, ze na do momentu, gd górna powierzchnia (S)badanej próbki badanej próbce (2) kladzie sie plytke (3) z metaluwysoko- (2) zacznie sie topic, topliwego, najkorzystniej z tantalu, która nagrzewa sie lW. Roligrul LV PKI . Naklad 120 eg/.Cuui 100 /l PLThe subject of the invention is a method of conducting research on the effect of the thermal gradient on structural changes in alloys. The increase in the properties of low-strength alloys used, in particular, in the production of turbine engine blades can be obtained by using eutectic alloys of lamellar structure for their production. in general, they are cooled from the inside, as a result of which a very high thermal gradient is created between the outer and inner surfaces of these blades. It causes irreversible changes in the structure of the blades, leading to a decrease in their strength properties. So far, the study of the effect of the heat gradient on alloys with eutectic structure is carried out on a special device equipped with a vacuum system, electron guns and a cooling system. The method of carrying out the tests consists in placing the test sample on a metal block of this device filled with water, and its upper surface heats the liquid state by means of an electron beam, and a vacuum is generated between the sample surface and the electron beam. As a result of a very large difference in temperature between the surface of the sample and its base, a very high and constant thermal gradient is obtained in its interior. The application of this test method is very expensive, as it requires the use of special equipment for generating an electron beam. The aim of the invention is to eliminate the drawbacks mentioned. Unexpectedly, the result was that the sample placed on a water-cooled metal block is placed on a plate of high-melting metal, most preferably tantalum, which is heated with an oxy-acetylene torch until the upper surface of the test sample becomes topic. The advantages of the method according to the invention are large. simplicity of carrying out the tests and low cost of these tests due to the elimination of heating the sample by means of an electron beam. The method according to the invention is explained in more detail in the example of the embodiment in the drawing. and on the fact that on the metal block 1, cooled with water, the test sample 2 is placed, on which the tantalum plate 3 is placed. Then the surfaces of this sample are heated from above with an oxygen-acetylene burner 4, until the upper surface 5 of this sample becomes topic, causing a large thermal gradient between the upper surface 5 of the sample 2 and its base4. The method according to the invention can also be used in the study of alloys with a different structure, especially in cases of conducting research simulating their work in conditions of high thermal gradient. Patent claim A method of conducting research on the influence of the thermal gradient on structural changes in alloys, consisting in heating the test sample placed on the block, preferably with an oxygen-acetylene burner (4), and with a metal cooled water . characterized in that until the upper surface (S) of the test sample is placed on the test sample (2) a plate (3) of high-metal (2) begins to form a hot melt topic, preferably tantalum, which heats up to LW. Roligrul LV PKI. Mintage 120 eg / .Cuui 100 / l PL

Claims (1)

1. Zastrzezenie patentowe Sposób przeprowadzania badan wplywu gradientu cieplnego na zmiany strukturalne stopów, polegajacy na3 114 493 4 nagrzewaniu badanej próbki umieszczonej na bloku najkorzystniej palnikiem (4) acetylenowo-tlenowym, az metalowym chlodzonym woda. znamienny tym, ze na do momentu, gd górna powierzchnia (S)badanej próbki badanej próbce (2) kladzie sie plytke (3) z metaluwysoko- (2) zacznie sie topic, topliwego, najkorzystniej z tantalu, która nagrzewa sie lW. Roligrul LV PKI . Naklad 120 eg/. Cuui 100 /l PL1. Patent claim A method of conducting research on the effect of the thermal gradient on structural changes in alloys, consisting in heating the test sample placed on the block, preferably with an oxygen-acetylene burner (4), and with water cooled metal. characterized in that until the upper surface (S) of the test sample is placed on the test sample (2) a plate (3) of high-metal (2) begins to form a hot melt topic, preferably tantalum, which heats up to LW. Roligrul LV PKI. Mintage 120 eg /. Cuui 100 / l PL
PL20508678A 1978-03-03 1978-03-03 Method of investigating influence of thermal gradient on structural changes of alloys PL114493B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
PL20508678A PL114493B2 (en) 1978-03-03 1978-03-03 Method of investigating influence of thermal gradient on structural changes of alloys

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
PL20508678A PL114493B2 (en) 1978-03-03 1978-03-03 Method of investigating influence of thermal gradient on structural changes of alloys

Publications (2)

Publication Number Publication Date
PL205086A1 PL205086A1 (en) 1979-02-12
PL114493B2 true PL114493B2 (en) 1981-01-31

Family

ID=19987892

Family Applications (1)

Application Number Title Priority Date Filing Date
PL20508678A PL114493B2 (en) 1978-03-03 1978-03-03 Method of investigating influence of thermal gradient on structural changes of alloys

Country Status (1)

Country Link
PL (1) PL114493B2 (en)

Also Published As

Publication number Publication date
PL205086A1 (en) 1979-02-12

Similar Documents

Publication Publication Date Title
Yan et al. An Arrhenius equation-based model to predict the residual stress relief of post weld heat treatment of Ti-6Al-4V plate
Flores et al. Direct steam generation in parabolic trough concentrators with bimetallic receivers
Zhang et al. Thermal fatigue crack initiation and propagation behaviors of GH3230 nickel‐based superalloy
Lin et al. Effect of metal thermal properties on boiling curves obtained by the quenching method
Mehta et al. Thermal Fatigue Analysis of Induction Furnace Wall for Zirconia
PL114493B2 (en) Method of investigating influence of thermal gradient on structural changes of alloys
Gil et al. Thermal efficiencies of NiTiCu shape memory alloys
Somani et al. Hot deformation characteristics of INCONEL alloy MA 754 and development of a processing map
Zhu et al. Characterization of hot deformation behavior of Ti-4.5 Al-3V-2Mo-2Fe titanium alloy
de la Yedra et al. Thermomechanical fatigue tests development and life prediction of a nickel base superalloy
Chataigner et al. Thermomechanical fatigue behaviour of coated and bare nickel-based superalloy single crystals
Pompe Thermal shock behavior of ceramic materials-modelling and measurement
Salahuddin et al. Zero velocity regions near forward and rare points of circular cylinder: A heat and mass transfer study
Batra et al. The interaction among adiabatic shear bands in simple and dipolar materials
Cheeke et al. Anomalous behavior of the Kapitza resistance between solids and liquid helium II
Kolacek et al. Heat transfer by forced convection from a vertical PCM plate
Zhao et al. Influence of Jet Velocities and Material Properties in Quenching of Metal with Array of Jets
SUGANO Transient thermal stresses in a non-homogeneous doubly connected region
Jackman Forming and fabrication of superalloys
JPS55163431A (en) Sensibility testing method of stress removal annealing crack
Orozco et al. The effect of surface condition and rotation on film/transition boiling from a sphere
Kuo et al. On the question of strain rate continuity in stress rate change experiments
Trout Jr et al. Investigation of Tantalum in a 3,800 Degree F Supersonic Airstream
Wittman et al. The effect of heat treatment on the mechanical properties and microstructure of explosion welded 6061 aluminum alloy
STOICĂNESCU et al. Experimental Verification of a Software for Simulation of Heating Metallic Parts in Solar Furnaces