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Research of the influence of a new method for ball-attach process on BGA packages on intermetallic layers
Gregor, Adam ; Jankovský, Jaroslav (referee) ; Otáhal, Alexandr (advisor)
This work deals with exploring a new method of ball-attach process on BGA packages using a directly heated stencil. The existing procedures of making solder bumps were compared with possible benefits of using this new method. The methodology was established to create samples using a new reflow method and its effect on the formation and strength of intermetallic layers of solder bumps, due to the set height of the heated template, which was designed for reflow of BGA terminals. In addition to the design of the methodology, shear tests and metallographic sections of the samples were also performed. The thickness of the intermetallic layer and its roughness were examined. An evaluation of the results was performed on the basis of which a new method of reflow soldering of solder balls on BGA packages was optimized.
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Laser diode soldering
Straka, Michal ; Holík, Milan (referee) ; Stejskal, Petr (advisor)
This work deals with the laser diode soldering. The theoretical part summarizes general and acquired findings about soldering technology and materials that occur in this process. It also describes factors that affect the reliability of solder joints. It is closely focused to the shaping of the solder joint and structure of intermetallic layer. The practical part of this work is focused on the design of equipment for laser diode soldering and subsequent shaping of the samples. The quality of soldered joint is compared against the quality of joint created using re-flow technology - remelting in in-line smelter. The structure and thickness of the intermetallic layer, the number and shape of the voids in the solder joints are compared.
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Mechanical Properties of solder joint
Meliš, Josef ; Starý, Jiří (referee) ; Stejskal, Petr (advisor)
This thesis deals with the differences between the mechanical properties of surface conditionings of the printed circuit boards and various types of soldering pastes. The practical part of the thesis describes all the steps necessary to conduct the experiment. The experiment will evaluate the measured mechanical strength of the solder joint for each surface conditioning, the types of solders, the increase in thickness of the intermetalic layer during long-term aging and the change in the structure of the solder joint.
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Trends in Solder Paste Area and Nanoparticles Influence
Dosedla, Milan ; Špinka, Jiří (referee) ; Starý, Jiří (advisor)
This thesis deals with novel trends in solder paste technology. It focuses on nanoparticle applications used as a tool for improving a state of the art lead free solder alloys. The recently published results about the impact of different types of nanoparticles on properties of newly-emerged nanocomposite solders are discussed and summarized in the thesis. Preparation, practical application and testing of new solder paste based on low temperature SnBi alloy with an admixture of titanium dioxide are also discussed. Finally, properties of solder joints using these solder pastes are investigated and the results are evaluated.
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Solder Joint Reliability Prediction
Stejskal, Petr ; Skočil, Vlastimil (referee) ; Hovorka, Ladislav (referee) ; Kazelle, Jiří (advisor)
The thesis deals issue of the solder joint reliability and diagnostics. The manufacturing technology of electronics currently features a very high level of perfection. A large number of electrical devices ends its functional life due to solder joint failure. The objective of presented research consists studies of processes taking place in the solder joint due to soldering and after soldering. To this end, I will employ several methods of diagnostics. Noise based methods of solder joint measurement was evaluated. Based on a detailed study and understanding of processes it can be solder joint reliability predicted.
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Research of the influence of a new method for ball-attach process on BGA packages on intermetallic layers
Gregor, Adam ; Jankovský, Jaroslav (referee) ; Otáhal, Alexandr (advisor)
This work deals with exploring a new method of ball-attach process on BGA packages using a directly heated stencil. The existing procedures of making solder bumps were compared with possible benefits of using this new method. The methodology was established to create samples using a new reflow method and its effect on the formation and strength of intermetallic layers of solder bumps, due to the set height of the heated template, which was designed for reflow of BGA terminals. In addition to the design of the methodology, shear tests and metallographic sections of the samples were also performed. The thickness of the intermetallic layer and its roughness were examined. An evaluation of the results was performed on the basis of which a new method of reflow soldering of solder balls on BGA packages was optimized.
|
|
|
Trends in Solder Paste Area and Nanoparticles Influence
Dosedla, Milan ; Špinka, Jiří (referee) ; Starý, Jiří (advisor)
This thesis deals with novel trends in solder paste technology. It focuses on nanoparticle applications used as a tool for improving a state of the art lead free solder alloys. The recently published results about the impact of different types of nanoparticles on properties of newly-emerged nanocomposite solders are discussed and summarized in the thesis. Preparation, practical application and testing of new solder paste based on low temperature SnBi alloy with an admixture of titanium dioxide are also discussed. Finally, properties of solder joints using these solder pastes are investigated and the results are evaluated.
|
|
|
Mechanical Properties of solder joint
Meliš, Josef ; Starý, Jiří (referee) ; Stejskal, Petr (advisor)
This thesis deals with the differences between the mechanical properties of surface conditionings of the printed circuit boards and various types of soldering pastes. The practical part of the thesis describes all the steps necessary to conduct the experiment. The experiment will evaluate the measured mechanical strength of the solder joint for each surface conditioning, the types of solders, the increase in thickness of the intermetalic layer during long-term aging and the change in the structure of the solder joint.
|
|
|
Solder Joint Reliability Prediction
Stejskal, Petr ; Skočil, Vlastimil (referee) ; Hovorka, Ladislav (referee) ; Kazelle, Jiří (advisor)
The thesis deals issue of the solder joint reliability and diagnostics. The manufacturing technology of electronics currently features a very high level of perfection. A large number of electrical devices ends its functional life due to solder joint failure. The objective of presented research consists studies of processes taking place in the solder joint due to soldering and after soldering. To this end, I will employ several methods of diagnostics. Noise based methods of solder joint measurement was evaluated. Based on a detailed study and understanding of processes it can be solder joint reliability predicted.
|
|
|
Laser diode soldering
Straka, Michal ; Holík, Milan (referee) ; Stejskal, Petr (advisor)
This work deals with the laser diode soldering. The theoretical part summarizes general and acquired findings about soldering technology and materials that occur in this process. It also describes factors that affect the reliability of solder joints. It is closely focused to the shaping of the solder joint and structure of intermetallic layer. The practical part of this work is focused on the design of equipment for laser diode soldering and subsequent shaping of the samples. The quality of soldered joint is compared against the quality of joint created using re-flow technology - remelting in in-line smelter. The structure and thickness of the intermetallic layer, the number and shape of the voids in the solder joints are compared.
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