Heat Transfer Stages Recognition by Boiling Acoustic During Quenching /

In order to control the quenching process and provide uniform quenching, wetting of the specimen with the quenching medium is very important since this will provide equable heat transfer and therefore uniform quenching conditions for the specimen. During the quenching of the specimens in liquids, in...

Full description

Bibliographic Details
Main Authors:	Ravnik, Franc (Author), Grum, Janez (Author)
Corporate Authors:	ASTM International, American Society for Testing and Materials
Format:	Book
Language:	English
Published:	West Conshohocken, Pa. : ASTM International, 2012
Subjects:	Change of state (Physics) Cooling rate Film boiling Heat > Transmission Nucleate boiling Polymeric water solution Quenching Sound emission Sound pressure level Sound spectrograph Vapor film


LEADER	04507nam a2200553 i 4500
001	f969cf78-79f3-4819-8215-d0139a5c0203
005	20230617000000.0
008	170319s2012 pau\|\|\|\|\|o\|\|\|\|\|\|\|\|\|\|\|eng\|\|
024	7		\|a 10.1520/STP153420120012 \|2 doi
035			\|a (IN-ChSCO)ASTMSTP153420120012
040			\|a ASTM \|c SCOPE \|b eng \|e rda \|d PAU
041			\|a eng
100	1		\|a Ravnik, Franc, \|e author
245	1	0	\|a Heat Transfer Stages Recognition by Boiling Acoustic During Quenching / \|c Franc Ravnik, Janez Grum
264		1	\|a West Conshohocken, Pa. : \|b ASTM International, \|c 2012
300			\|a 1 online resource (20 pages) : \|b illustrations, figures, tables
336			\|a text \|2 rdacontent \|b txt
337			\|a computer \|2 rdamedia \|b c
338			\|a online resource \|2 rdacarrier \|b cr
347			\|a text file \|b PDF \|2 rda
504			\|a Includes bibliographical references \|b 12
506			\|a Restricted for use by site license.
520	3		\|a In order to control the quenching process and provide uniform quenching, wetting of the specimen with the quenching medium is very important since this will provide equable heat transfer and therefore uniform quenching conditions for the specimen. During the quenching of the specimens in liquids, in the boundary layer between the specimen and the quenching medium, three characteristic phenomena occur in the following sequence: Film boiling, bubble boiling, and convection. The phenomena concerned proceed with different rates of intensity at different locations at the specimen surface or at its entire surface. The quenching process is always accompanied by evaporation of the quenching medium at the specimen surface, where the characteristic boundary layer will form. Vaporization and boiling is always involved with sound generated by formation, oscillation, and decay of the bubbles, predominantly in the range of hearing, and which slightly round this threshold. During the experiment of dip quenching, the acoustic emission generated was captured with the hydrophone. The sound pressure changes are indicated in a digital sound record. A spectrum analysis of sound pressure is shown in the diagrams indicating variations of the sound pressure level as a function of frequency and time, in three-dimensional diagrams of sound pressure changes, as a time-variation of pressure amplitude, as a signal power spectrum, etc. The variations of sound pressure in dependence of the acoustic signal captured confirm the phenomena in the boundary layer between the specimen and the quenching medium. From the acoustic signals captured in the course of the quenching process, it can be inferred (1) the occurrence and continuing of film boiling, in which intense emission will occur due to the evaporation of a quenching medium followed by generation characteristic sound signals with high amplitude; (2) this is followed by bubble boiling with a characteristic calm emission of the vapor bubbles. Sound signals have constant amplitude values; and (3) at the conclusion of the quenching process, the bubble emission will reduce and eventually stop, which is reflected in the amplitude value of the sound signal. The aim of the experimental study of quenching by measuring the characteristics of the sound signal is to monitor the quenching process and obtain optimal results
541			\|a ASTM International \|3 PDF \|c Purchase price \|h USD25
588			\|a Description based on publisher's website, viewed March 19, 2017
650		0	\|a Change of state (Physics)
650		0	\|a Cooling rate
650		0	\|a Film boiling
650		0	\|a Heat \|x Transmission
650		0	\|a Nucleate boiling
650		0	\|a Polymeric water solution
650		0	\|a Quenching
650		0	\|a Sound emission
650		0	\|a Sound pressure level
650		0	\|a Sound spectrograph
650		0	\|a Vapor film
650	1	4	\|a Sound emission
650	2	4	\|a Cooling rate
650	2	4	\|a Polymeric water solution
650	2	4	\|a Quenching
650	2	4	\|a Sound pressure level
650	2	4	\|a Sound spectrograph
650	2	4	\|a Vapor film
700	1		\|a Grum, Janez, \|e author
710	2		\|a ASTM International
710	2		\|a American Society for Testing and Materials \|t Selected Technical Papers.
710	2		\|a American Society for Testing and Materials
740	0		\|a ASTM digital library
999	1	0	\|i f969cf78-79f3-4819-8215-d0139a5c0203 \|l 9978998573703681 \|s US-PU \|m heat_transfer_stages_recognition_by_boiling_acoustic_during_quenching______2012_______astmia________________________________________ravnik__franc______________________e

Heat Transfer Stages Recognition by Boiling Acoustic During Quenching /

Similar Items