Intense pulsed neutron generation based on the principle of Plasma Immersion Ion Implantation (PI3) technique.

Motloung, Setumo Victor

January 2006

<p>The development of a deuterium-deuterium/ tritium-deuterium (D-D/ D-T) pulsed neutron generator based on the principle of the Plasma Immersion Ion Implantation (PI3) technique is presented, in terms of investigating development of a compact system to generate an ultra short burst of mono-energetic neutrons (of order 1010 per second) during a short period of time (&lt / 20&mu / s) at repetition rates up to 1 kHz. The system will facilitate neutron detection techniques, such as neutron back-scattering, neutron radiography and time-of-flight activation analysis.</p> <p><br /> Aspects addressed in developing the system includes (a) characterizing the neutron spectra generated as a function of the target configuration/ design to ensure a sustained intense neutron flux for long periods of time, (b) the system was also characterised as a function of power supply operating conditions such as voltage, current, gas pressure and plasma density.</p>

Intense pulsed neutron generator

Mono-energetic neutrons

D-D and D-T reactions

Titanium target

HV pulse power supply

Plasma chamber

RF power supply

Neutron monitor and detectors

Neutron detection techniques.

INFLUÊNCIA DOS PARÂMETROS DE IMPLANTAÇÃO IÔNICA POR IMERSÃO EM PLASMA NA EFICIÊNCIA DA NITRETAÇÃO DO AÇO INOXIDÁVEL SUPER DUPLEX

Oliveira, Willian Rafael de

10 March 2016

Made available in DSpace on 2017-07-21T19:25:52Z (GMT). No. of bitstreams: 0 Previous issue date: 2016-03-10 / This work aimed at study the correlation of variables in a plasma immersion ion implantation (PIII) system, as well as their synergistic combination for the nitriding of the UNS S32750 super duplex stainless steel ( SD 2507). The research comprised two phases, as follows. (i) Study of the system. The interconnection of variables, namely voltage (V), pulse width (L), frequency (f) and current (I), were systematically analyzed with respect to the cathode heating. A mathematical formulation was proposed for the ion average energy and the substrate temperature, which took into consideration the energy conservation in the system, and the basic theories for plasma and sheaths and the ion interaction with matter. Hereafter, such model is thought to be experimentally demonstrated, allowing inferring the actual PIII fraction of energy that is converted to heat. (ii) N-PIII of the SD. Mirror-like samples were nitrided under different V, f and L combinations, leading to the temperatures 295, 325, 355 and 400 oC. The surface characterization methods were the optical, field emission electron, and atomic force microscopies, X-ray diffraction, energy dispersive X-ray spectroscopy, backscattered electron diffraction, and instrumented indentation. The austenite and ferrite fraction in the as received material amounted to 43,7 % and 56,3 %, respectively. After nitriding, the modified layers were 0,5-1,5 m thick. Up to 355 ºC, the expanded phase N was produced in originally austenite grains, whereas Fe2-3N e Fe4N precipitates were formed in ferrite grains. The hardness profiles were similar among different temperatures and between the two phases in the same sample. However, in ferritic regions, the mechanism for plastic deformation changed from ductile to brittle. In the 400 ºC treatments, only N was formed. Finally, a correlation for the production of the expanded phase in PIII and the mean pulse energy Ei was attained, given by and . Where IN and I are the integrated intensities of diffraction peaks for austenite and expanded austenite, respectively. / O objetivo deste trabalho foi estudar o comportamento de um sistema de implantação iônica por imersão em plasma (PIII: “plasma immersion ion implantation”), em função de suas variáveis, bem como a influência destas na nitretação de superfícies do aço super duplex UNS S32750 (ou SD 2507). O trabalho foi dividido em dois momentos, como segue. (i) Estudo do sistema. O comportamento das variáveis associadas à implantação iônica, especificamente tensão (V), largura de pulsos (L), frequência (f) e corrente (I), foi sistematicamente analisado com relação ao aquecimento do cátodo. Com base na conservação de energia, física de plasmas e bainhas catódicas e interação de íons com a matéria, propôs-se uma formulação matemática relacionado a energia média dos íons à temperatura do substrato, a qual poderá, futuramente, ser posta à prova experimental, mensurando-se a fração de energia que é, de fato, transformada em calor. (ii) Nitretação por PIII do SD. Amostras com superfície especular foram nitretadas sob diferentes combinações de V, f e L, em temperaturas de 295, 325, 355 e 400 oC. As superfícies foram caracterizadas por métodos de microscopia (ótica, eletrônica com efeito de campo, de força atômica), difração de raios X, espectroscopia de raios X por energia dispersiva, difração de elétrons retroespalhados, e indentação instrumentada. O SD apresenta estrutura cristalina de austenita e ferrita na proporção de 43,7/56,3. A nitretação produziu camadas modificadas com espessura de 0,5 a 1,5 m. Observou-se, nos tratamentos até 355 ºC, a formação da fase expandida N nos grãos que originalmente eram austenita, e de precipitados de nitretos -Fe2-3N e -Fe4N em grãos de ferrita. Embora não houve diferenças significativas nos perfis de dureza, tanto entre as temperaturas quanto entre as fases em uma mesma amostra, o mecanismo de deformação plástica nas regiões ferríticas transitou de dúctil para frágil. Nas nitretações em 400 ºC, houve apenas a formação de N. Finalmente, determinou-se que a obtenção da fase expandida por PIII no SD se relaciona com a energia média por pulso Ei por e . Onde I e I são as intensidades integradas dos picos de difração da austenita expandida e da austenita, respectivamente.

energia térmica

aço inoxidável super duplex

austenita expandida

modelos matemáticos

plasma immersion ion implantation

thermal energy

super duplex stainless steel

expanded austenite

mathematical models

CNPQ::CIENCIAS EXATAS E DA TERRA::FISICA

AÇO DUPLEX LDX 2101 SUBMETIDO À NITRETAÇÃO POR IMPLANTAÇÃO IÔNICA, IMPLANTAÇÃO IÔNICA POR IMERSÃO EM PLASMA E DESCARGA LUMINOSA: PROPRIEDADES MECÂNICAS E TRIBOLÓGICAS

Assmann, Andre

27 April 2011

Made available in DSpace on 2017-07-21T19:26:00Z (GMT). No. of bitstreams: 1 Andre Assmann.pdf: 3125745 bytes, checksum: 38854736eae2fcc4e8c2c21a2668f387 (MD5) Previous issue date: 2011-04-27 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / In the present work showing the results on mechanical and tribological properties of duplex stainless steel LDX2101 nitriding by Ion Implantation (II), Plasma Immersion Ion Implantation (PI3) and Glow Discharge (GD). Nitrogen ion implantation was performed at room temperature and 350 C. The nitrogen fluencies were combined to obtain an atomic nitrogen concentration of 27 %. The PI3 was carried out with temperatures of 300 and 350 C working in N2 atmosphere during 3 hours. For GD, the working conditions were gas mixture N2/H2 (in the ratio 80%/20%, 60%/40% and 20%/80%) and N2/CH4 (in the ratio 98%/02%) during 3 hours at temperatures of 300, 350 and 380 C. Structural characterizations of the modified layers were performed by X-Ray Diffraction (XRD) with Bragg-Brentano geometry. Hardness was obtained by instrumented indentation using Oliver and Pharr method’s with Berkovich indenter. Tribological tests were evaluated by reciprocating sliding with a WC(Co) sphere (counter body). XRD patterns for II samples showing only the formation of γN, however, samples treated by GD and PI3 showed the formation of γ’Fe4N and Fe2+XN, over there γN, as a function of the working temperature and nitriding atmosphere. After the nitriding hardness values between 8 and 20 GPa in comparison to 3 GPa of the bulk was obtained. The hardness profile of samples treated by GD at 350 and 380 C exhibit plateaulike for values of hardness between 13 and 20 GPa, indicate the formation of a thicker nitrited layer. The friction coefficient for II samples showed a strong adhesive wear. PI3 samples exhibit long running-in regimes compared to II and untreated samples. GD samples showing a predominant abrasive wear because ploughing of surface for asperities and wear particles formed between the surface and counter body. The significant decrease in the wear was observed in all GD samples, with a reduction of one order of magnitude compared to untreated sample. / No presente trabalho, são apresentados os resultados sobre as propriedades mecânicas e tribológicas do aço inoxidável duplex LDX 2101 nitretado por Implantação Iônica (II), Implantação Iônica por Imersão em Plasma (3IP) e Descarga Luminosa (DL). A Implantação Iônica de nitrogênio foi realizada em temperatura ambiente e em 350 C. As fluências utilizadas foram combinadas para obter uma concentração de átomos de nitrogênio de 27 %. A nitretação 3IP, foi realizada nas temperaturas de 300 e 350 C em atmosfera de N2 durante 3 horas. Para o tratamento por DL as condições de tratamento foram em diferentes atmosferas de N2/H2 (nas proporções de 80%/20%, 60%/40% e 20%/80%) e N2/CH4 (na proporção de 98%/02%) durante 3 horas nas temperaturas de 300, 350 e 380 C. A caracterização estrutural das camadas modificadas foi obtida através de Difração de Raios-X (DRX) com geometria Bragg-Brentano. Os perfis de dureza foram obtidos por indentação instrumentada usando o método de Oliver e Pharr com indentador do tipo Berkovich. Testes tribológicos foram realizados com tribômetro do tipo pino sobre disco em movimento recíproco com uma esfera de WC(Co) de contra corpo. Os padrões de DRX para amostras tratadas por II apresentaram apenas a formação de γN, contudo, as amostras tratadas por DL e 3IP apresentaram a formação de γ’-Fe4N e Fe2+XN, além de γN, como função da temperatura de tratamento e da atmosfera de nitretação. Após as nitretações durezas entre 8 e 20 GPa em comparação a 3 GPa para o substrato foram obtidas. Perfis de dureza para amostras tratadas por DL em 350 e 380 C exibiram valores entre 13 e 20 GPa em forma de platô, indicando a formação de uma espessa camada nitretada. O coeficiente de atrito para as amostras tratadas por II apresentaram um forte desgaste adesivo. Amostras tratadas por 3IP exibiram longos regimes de acomodação comparados as amostras tratadas por II e a amostra referência. Amostras tratadas por DL apresentaram um predominante desgaste abrasivo devido à deformação plástica da superfície causada pelas asperidades e pelas partículas de desgaste formadas entre a superfície e o contra corpo. Uma significante diminuição no desgaste foi observada em todas as amostras tratadas por DL, com uma redução de uma ordem de grandeza quando comparado a amostra sem tratamento.

aço inoxidável duplex

implantação iônica

descarga luminosa

propriedades mecânicas

propriedades tribológicas

duplex stainless steel

ion implantation

plasma immersion ion implantation

glow discharge

mechanical properties

tribological properties

CNPQ::CIENCIAS EXATAS E DA TERRA::FISICA

Intense pulsed neutron generation based on the principle of Plasma Immersion Ion Implantation (PI3) technique.

Motloung, Setumo Victor

January 2006

<p>The development of a deuterium-deuterium/ tritium-deuterium (D-D/ D-T) pulsed neutron generator based on the principle of the Plasma Immersion Ion Implantation (PI3) technique is presented, in terms of investigating development of a compact system to generate an ultra short burst of mono-energetic neutrons (of order 1010 per second) during a short period of time (&lt / 20&mu / s) at repetition rates up to 1 kHz. The system will facilitate neutron detection techniques, such as neutron back-scattering, neutron radiography and time-of-flight activation analysis.</p> <p><br /> Aspects addressed in developing the system includes (a) characterizing the neutron spectra generated as a function of the target configuration/ design to ensure a sustained intense neutron flux for long periods of time, (b) the system was also characterised as a function of power supply operating conditions such as voltage, current, gas pressure and plasma density.</p>

Intense pulsed neutron generator

Mono-energetic neutrons

D-D and D-T reactions

Titanium target

HV pulse power supply

Plasma chamber

RF power supply

Neutron monitor and detectors

Neutron detection techniques.

Intense pulsed neutron generation based on the principle of Plasma Immersion Ion Implantation (PI3) technique

Motloung, Setumo Victor

January 2006

Magister Scientiae - MSc / The development of a deuterium-deuterium/ tritium-deuterium (D-D/ D-T) pulsed neutron generator based on the principle of the Plasma Immersion Ion Implantation (PI3) technique is presented, in terms of investigating development of a compact system to generate an ultra short burst of mono-energetic neutrons (of order 1010 per second) during a short period of time (< 20μs) at repetition rates up to 1 kHz. The system will facilitate neutron detection techniques, such as neutron back-scattering, neutron radiography and time-of-flight activation analysis. Aspects addressed in developing the system includes (a) characterizing the neutron spectra generated as a function of the target configuration/ design to ensure a sustained intense neutron flux for long periods of time, (b) the system was also characterised as a function of power supply operating conditions such as voltage, current, gas pressure and plasma density. / South Africa

Intense pulsed neutron generator

Mono-energetic neutrons

D-D and D-T reactions

Titanium target

HV pulse power supply

Plasma chamber

RF power supply

Neutron monitor and detectors