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          法國輻射防護與核安全研究所2023年招聘博士后職位(瀝青及合成瀝青廢料的輻解性能研究)
          
     
           時間:2023-06-14來源:中國博士人才網(wǎng) 作者:佚名
          
    
           
    
          
	Post-Doctoral Position: Investigation Of The Radiolytic Properties Of Bitumens And Synthesized Bituminized Waste Product
          

          
	Universities and Institutes of France
          

          
	France
          

          
	June 14, 2023
          

          
	Contact:N/A
          

          
	Offerd Salary:Negotiation
          

          
	Location:N/A
          

          
	Working address:N/A
          

          
	Contract Type:Other
          

          
	Working Time:Full time
          

          
	Working type:N/A
          

          
	Ref info:N/A
          

          
	16 May 2023
          

          
	Job Information
          

          
	Organisation/Company
          

          
	Institut de radioprotection et de sûreté nucléaire
          

          
	Research Field
          

          
	Technology » Materials technology
          

          
	Researcher Profile
          

          
	First Stage Researcher (R1)
          

          
	Country
          

          
	France
          

          
	Application Deadline
          

          
	14 Jun 2023 - 22:00 (UTC)
          

          
	Type of Contract
          

          
	Temporary
          

          
	Job Status
          

          
	Full-time
          

          
	Offer Starting Date
          

          
	3 Jul 2023
          

          
	Is the job funded through the EU Research Framework Programme?
          

          
	Not funded by an EU programme
          

          
	Is the Job related to staff position within a Research Infrastructure?
          

          
	No
          

          
	Offer Description
          

          
	Environment:
          

          
	Coprecipitation sludges employed in the water treatment of effluent in the nuclear industry are immobilized in bitumen matrix. This mixture is known as bituminized waste, and it consists of long-lived medium and low-level waste. The structure of the bituminized waste will alter during storage due to self- irradiation, and radiolysis gases will occur. Because bituminous mixtures are opaque, direct visual observation of such occurrences is impossible. X-ray tomography is currently used to determine the distribution of radiolysis bubbles inside the bitumen matrix. However, this approach does not allow for a conclusion on the significance of the bubble coalescence phenomena or for direct observation of bubble production and migration in hot bituminized waste between 70 and 110°C (temperature range corresponding to the temperatures of triggering of the first exothermic chemical reactions). To overcome this technological challenge, the ARISE project seeks to investigate the viability of ultrasonic technologies for detecting the emergence of radiolysis bubbles and monitoring them in real time during a temperature rise. The project calls for the validation of this ultrasonic technology tried using X-ray tomography techniques. By overcoming the barrier posed by bitumen opacity, this innovative ultrasonic approach may eventually allow researchers to better understand the aging under irradiation of bituminized waste over several decades of storage and so increase their safety.
          

          
	Duties:
          

          
	· Bibliography and knowledge of work previously carried out at IRSN and IES
          

          
	· Development of cells compatible with irradiation, measurement by X-ray microtomography and ultrasonic detection. This work will be carried out in partnership with IRSN PSN-RES/SCA in Saclay and IES.
          

          
	· Following the irradiations which will take place in the first quarter of 2024, study by microtomography of the materials irradiated at the different doses and dose rates previously established at LUTECE.
          

          
	· Study of the ultrasound response as a function of the dose and definition of a post-irradiation method. The work will consist in analyzing the ultrasonic signals after interaction with the cells according to the integrated dose. The analysis of the ultrasonic speed and the ultrasonic attenuation for example should lead to proposing a precise methodology for the detection of bubbles.Requirements
          

          
	Specific Requirements
          

          
	We are searching for a candidate with a doctorate in science who specializes in materials and/or sensors and has experience with cell design or radiolysis. Technical abilities in micro-tomography and/or ultrasonic sensors will be required to comprehend the project. Expertise in the design or implementation of experimental techniques is required. For the fellowship, the candidate must be self-sufficient and comfortable working in a group.
          

          
	Additional InformationWork Location(s)
          

          
	Number of offers available
          

          
	1
          

          
	Company/Institute
          

          
	Institut de radioprotection et de sûreté nucléaire
          

          
	Country
          

          
	France
          

          
	City
          

          
	Fontenay-aux-Roses (92)
          

          
	Where to apply
          

          
	Website
          

          
	https: // www. abg.asso.fr/fr/candidatOffres/show/idoffre/113876
          

          
	Contact
          

          
	Website
          

          
	https:// www. irsn.fr/EN
          

          
	STATUS: EXPIRED
          

        
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