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You searched for +publisher:"Michigan Technological University" +contributor:("Keat Ghee Ong"). Showing records 1 – 12 of 12 total matches.

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Michigan Technological University

1. Tan, Ee Lim. Wireless and passive pressure sensor system based on the magnetic higher-order harmonic field.

Degree: PhD, Department of Biomedical Engineering, 2011, Michigan Technological University

  The goal of this work is to develop a magnetic-based passive and wireless pressure sensor for use in biomedical applications. Structurally, the pressure sensor,… (more)

Subjects/Keywords: Biomedical Engineering and Bioengineering; Engineering

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APA (6th Edition):

Tan, E. L. (2011). Wireless and passive pressure sensor system based on the magnetic higher-order harmonic field. (Doctoral Dissertation). Michigan Technological University. Retrieved from http://digitalcommons.mtu.edu/etd-restricted/3

Chicago Manual of Style (16th Edition):

Tan, Ee Lim. “Wireless and passive pressure sensor system based on the magnetic higher-order harmonic field.” 2011. Doctoral Dissertation, Michigan Technological University. Accessed October 24, 2020. http://digitalcommons.mtu.edu/etd-restricted/3.

MLA Handbook (7th Edition):

Tan, Ee Lim. “Wireless and passive pressure sensor system based on the magnetic higher-order harmonic field.” 2011. Web. 24 Oct 2020.

Vancouver:

Tan EL. Wireless and passive pressure sensor system based on the magnetic higher-order harmonic field. [Internet] [Doctoral dissertation]. Michigan Technological University; 2011. [cited 2020 Oct 24]. Available from: http://digitalcommons.mtu.edu/etd-restricted/3.

Council of Science Editors:

Tan EL. Wireless and passive pressure sensor system based on the magnetic higher-order harmonic field. [Doctoral Dissertation]. Michigan Technological University; 2011. Available from: http://digitalcommons.mtu.edu/etd-restricted/3


Michigan Technological University

2. DeRouin, Andrew J. Inductive-Capacitive Resonant Circuit Sensors for Structural Health and Environmental Monitoring.

Degree: MS, Department of Electrical and Computer Engineering, 2014, Michigan Technological University

  Inductive-capacitive (LC) resonant circuit sensors are low-cost, wireless, durable, simple to fabricate and battery-less. Consequently, they are well suited to sensing applications in harsh… (more)

Subjects/Keywords: capacitive; detection; inductive; monitoring; structural; wireless; Electrical and Computer Engineering; Electromagnetics and Photonics

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APA (6th Edition):

DeRouin, A. J. (2014). Inductive-Capacitive Resonant Circuit Sensors for Structural Health and Environmental Monitoring. (Masters Thesis). Michigan Technological University. Retrieved from http://digitalcommons.mtu.edu/etd-restricted/189

Chicago Manual of Style (16th Edition):

DeRouin, Andrew J. “Inductive-Capacitive Resonant Circuit Sensors for Structural Health and Environmental Monitoring.” 2014. Masters Thesis, Michigan Technological University. Accessed October 24, 2020. http://digitalcommons.mtu.edu/etd-restricted/189.

MLA Handbook (7th Edition):

DeRouin, Andrew J. “Inductive-Capacitive Resonant Circuit Sensors for Structural Health and Environmental Monitoring.” 2014. Web. 24 Oct 2020.

Vancouver:

DeRouin AJ. Inductive-Capacitive Resonant Circuit Sensors for Structural Health and Environmental Monitoring. [Internet] [Masters thesis]. Michigan Technological University; 2014. [cited 2020 Oct 24]. Available from: http://digitalcommons.mtu.edu/etd-restricted/189.

Council of Science Editors:

DeRouin AJ. Inductive-Capacitive Resonant Circuit Sensors for Structural Health and Environmental Monitoring. [Masters Thesis]. Michigan Technological University; 2014. Available from: http://digitalcommons.mtu.edu/etd-restricted/189


Michigan Technological University

3. Pereles, Brandon D. DESIGN AND APPLICATION OF WIRELESS PASSIVE MAGNETOELASTIC RESONANCE AND MAGNETOHARMONIC FORCE SENSORS.

Degree: PhD, Department of Biomedical Engineering, 2014, Michigan Technological University

  The objective of the work described in this dissertation is the development of new wireless passive force monitoring platforms for applications in the medical… (more)

Subjects/Keywords: Force Sensor; Magnetoelastic; Magnetoharmonic; Prosthesis; Resonance; Sensor Array; Biomedical Engineering and Bioengineering

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APA (6th Edition):

Pereles, B. D. (2014). DESIGN AND APPLICATION OF WIRELESS PASSIVE MAGNETOELASTIC RESONANCE AND MAGNETOHARMONIC FORCE SENSORS. (Doctoral Dissertation). Michigan Technological University. Retrieved from http://digitalcommons.mtu.edu/etds/795

Chicago Manual of Style (16th Edition):

Pereles, Brandon D. “DESIGN AND APPLICATION OF WIRELESS PASSIVE MAGNETOELASTIC RESONANCE AND MAGNETOHARMONIC FORCE SENSORS.” 2014. Doctoral Dissertation, Michigan Technological University. Accessed October 24, 2020. http://digitalcommons.mtu.edu/etds/795.

MLA Handbook (7th Edition):

Pereles, Brandon D. “DESIGN AND APPLICATION OF WIRELESS PASSIVE MAGNETOELASTIC RESONANCE AND MAGNETOHARMONIC FORCE SENSORS.” 2014. Web. 24 Oct 2020.

Vancouver:

Pereles BD. DESIGN AND APPLICATION OF WIRELESS PASSIVE MAGNETOELASTIC RESONANCE AND MAGNETOHARMONIC FORCE SENSORS. [Internet] [Doctoral dissertation]. Michigan Technological University; 2014. [cited 2020 Oct 24]. Available from: http://digitalcommons.mtu.edu/etds/795.

Council of Science Editors:

Pereles BD. DESIGN AND APPLICATION OF WIRELESS PASSIVE MAGNETOELASTIC RESONANCE AND MAGNETOHARMONIC FORCE SENSORS. [Doctoral Dissertation]. Michigan Technological University; 2014. Available from: http://digitalcommons.mtu.edu/etds/795


Michigan Technological University

4. Prince, Sterling. Wireless Sensor System for Monitoring Strains and Forces On An External Bone Fixation Plate.

Degree: MS, Department of Biomedical Engineering, 2016, Michigan Technological University

  A standalone, reconfigurable, embedded wireless sensing device was developed for real-time measurement of multiple parameters such as forces/strains and temperature. While there are commercial… (more)

Subjects/Keywords: Strain gauge; External fixation; Orthopaedic implant; Biomedical Devices and Instrumentation

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APA (6th Edition):

Prince, S. (2016). Wireless Sensor System for Monitoring Strains and Forces On An External Bone Fixation Plate. (Masters Thesis). Michigan Technological University. Retrieved from http://digitalcommons.mtu.edu/etdr/203

Chicago Manual of Style (16th Edition):

Prince, Sterling. “Wireless Sensor System for Monitoring Strains and Forces On An External Bone Fixation Plate.” 2016. Masters Thesis, Michigan Technological University. Accessed October 24, 2020. http://digitalcommons.mtu.edu/etdr/203.

MLA Handbook (7th Edition):

Prince, Sterling. “Wireless Sensor System for Monitoring Strains and Forces On An External Bone Fixation Plate.” 2016. Web. 24 Oct 2020.

Vancouver:

Prince S. Wireless Sensor System for Monitoring Strains and Forces On An External Bone Fixation Plate. [Internet] [Masters thesis]. Michigan Technological University; 2016. [cited 2020 Oct 24]. Available from: http://digitalcommons.mtu.edu/etdr/203.

Council of Science Editors:

Prince S. Wireless Sensor System for Monitoring Strains and Forces On An External Bone Fixation Plate. [Masters Thesis]. Michigan Technological University; 2016. Available from: http://digitalcommons.mtu.edu/etdr/203


Michigan Technological University

5. Karipott, Salil Sidharthan. A WIRELESS, PASSIVE SENSOR FOR MEASURING TEMPERATURE AT ORTHOPEDIC IMPLANT SITES FOR EARLY DIAGNOSIS OF INFECTIONS.

Degree: MS, Department of Biomedical Engineering, 2017, Michigan Technological University

  Sensorized implants with embedded wireless, passive temperature sensors were developed for early detection of implant-associated infections. The operation principle of the sensor is based… (more)

Subjects/Keywords: L C sensor; sensors; infection; temperature; orthopedic; implants; Biomedical; Biomedical Devices and Instrumentation

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APA (6th Edition):

Karipott, S. S. (2017). A WIRELESS, PASSIVE SENSOR FOR MEASURING TEMPERATURE AT ORTHOPEDIC IMPLANT SITES FOR EARLY DIAGNOSIS OF INFECTIONS. (Masters Thesis). Michigan Technological University. Retrieved from http://digitalcommons.mtu.edu/etdr/342

Chicago Manual of Style (16th Edition):

Karipott, Salil Sidharthan. “A WIRELESS, PASSIVE SENSOR FOR MEASURING TEMPERATURE AT ORTHOPEDIC IMPLANT SITES FOR EARLY DIAGNOSIS OF INFECTIONS.” 2017. Masters Thesis, Michigan Technological University. Accessed October 24, 2020. http://digitalcommons.mtu.edu/etdr/342.

MLA Handbook (7th Edition):

Karipott, Salil Sidharthan. “A WIRELESS, PASSIVE SENSOR FOR MEASURING TEMPERATURE AT ORTHOPEDIC IMPLANT SITES FOR EARLY DIAGNOSIS OF INFECTIONS.” 2017. Web. 24 Oct 2020.

Vancouver:

Karipott SS. A WIRELESS, PASSIVE SENSOR FOR MEASURING TEMPERATURE AT ORTHOPEDIC IMPLANT SITES FOR EARLY DIAGNOSIS OF INFECTIONS. [Internet] [Masters thesis]. Michigan Technological University; 2017. [cited 2020 Oct 24]. Available from: http://digitalcommons.mtu.edu/etdr/342.

Council of Science Editors:

Karipott SS. A WIRELESS, PASSIVE SENSOR FOR MEASURING TEMPERATURE AT ORTHOPEDIC IMPLANT SITES FOR EARLY DIAGNOSIS OF INFECTIONS. [Masters Thesis]. Michigan Technological University; 2017. Available from: http://digitalcommons.mtu.edu/etdr/342


Michigan Technological University

6. Madappaly Veetil, Praharsh. Implantable Wireless Sensor Networks: Application to Measuring Temperature for In Vivo Detection of Infections.

Degree: MS, Department of Biomedical Engineering, 2017, Michigan Technological University

  It is has been proven that infection in the body cause a local temperature increase due to localized inflammation. Therefore, a method to provide… (more)

Subjects/Keywords: temperature; sensor; thermistor; infection; wireless; implantable; Biomedical; Biomedical Devices and Instrumentation; Electrical and Electronics

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APA (6th Edition):

Madappaly Veetil, P. (2017). Implantable Wireless Sensor Networks: Application to Measuring Temperature for In Vivo Detection of Infections. (Masters Thesis). Michigan Technological University. Retrieved from http://digitalcommons.mtu.edu/etdr/356

Chicago Manual of Style (16th Edition):

Madappaly Veetil, Praharsh. “Implantable Wireless Sensor Networks: Application to Measuring Temperature for In Vivo Detection of Infections.” 2017. Masters Thesis, Michigan Technological University. Accessed October 24, 2020. http://digitalcommons.mtu.edu/etdr/356.

MLA Handbook (7th Edition):

Madappaly Veetil, Praharsh. “Implantable Wireless Sensor Networks: Application to Measuring Temperature for In Vivo Detection of Infections.” 2017. Web. 24 Oct 2020.

Vancouver:

Madappaly Veetil P. Implantable Wireless Sensor Networks: Application to Measuring Temperature for In Vivo Detection of Infections. [Internet] [Masters thesis]. Michigan Technological University; 2017. [cited 2020 Oct 24]. Available from: http://digitalcommons.mtu.edu/etdr/356.

Council of Science Editors:

Madappaly Veetil P. Implantable Wireless Sensor Networks: Application to Measuring Temperature for In Vivo Detection of Infections. [Masters Thesis]. Michigan Technological University; 2017. Available from: http://digitalcommons.mtu.edu/etdr/356


Michigan Technological University

7. Nelson, Brad. A Bluetooth Low-Energy Wireless Sensor Platform for Continuous Monitoring of a Bioreactor Environment during Cell Manufacturing.

Degree: MS, Department of Electrical and Computer Engineering, 2018, Michigan Technological University

  A wireless sensor platform based on Bluetooth Low-Energy (BLE) technology was designed and prototyped for continuous monitoring of physical conditions and chemical analytes, which… (more)

Subjects/Keywords: Biomedical Devices and Instrumentation

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APA (6th Edition):

Nelson, B. (2018). A Bluetooth Low-Energy Wireless Sensor Platform for Continuous Monitoring of a Bioreactor Environment during Cell Manufacturing. (Masters Thesis). Michigan Technological University. Retrieved from http://digitalcommons.mtu.edu/etdr/609

Chicago Manual of Style (16th Edition):

Nelson, Brad. “A Bluetooth Low-Energy Wireless Sensor Platform for Continuous Monitoring of a Bioreactor Environment during Cell Manufacturing.” 2018. Masters Thesis, Michigan Technological University. Accessed October 24, 2020. http://digitalcommons.mtu.edu/etdr/609.

MLA Handbook (7th Edition):

Nelson, Brad. “A Bluetooth Low-Energy Wireless Sensor Platform for Continuous Monitoring of a Bioreactor Environment during Cell Manufacturing.” 2018. Web. 24 Oct 2020.

Vancouver:

Nelson B. A Bluetooth Low-Energy Wireless Sensor Platform for Continuous Monitoring of a Bioreactor Environment during Cell Manufacturing. [Internet] [Masters thesis]. Michigan Technological University; 2018. [cited 2020 Oct 24]. Available from: http://digitalcommons.mtu.edu/etdr/609.

Council of Science Editors:

Nelson B. A Bluetooth Low-Energy Wireless Sensor Platform for Continuous Monitoring of a Bioreactor Environment during Cell Manufacturing. [Masters Thesis]. Michigan Technological University; 2018. Available from: http://digitalcommons.mtu.edu/etdr/609


Michigan Technological University

8. DeRouin, Andrew. WIRELESS IMPLANTABLE MAGNETOELASTIC SENSORS AND ACTUATORS FOR BIOMEDICAL APPLICATIONS.

Degree: PhD, Department of Biomedical Engineering, 2016, Michigan Technological University

  Magnetoelastic sensors represent a low-cost wireless and battery-less method for monitoring parameters in embedded or implanted applications; however, some limitations still exist preventing their… (more)

Subjects/Keywords: wireless; magnetoelastic; passive; sensor; sensing; remote; monitoring; measure; orthopedic; Biomedical Engineering and Bioengineering

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APA (6th Edition):

DeRouin, A. (2016). WIRELESS IMPLANTABLE MAGNETOELASTIC SENSORS AND ACTUATORS FOR BIOMEDICAL APPLICATIONS. (Doctoral Dissertation). Michigan Technological University. Retrieved from http://digitalcommons.mtu.edu/etdr/233

Chicago Manual of Style (16th Edition):

DeRouin, Andrew. “WIRELESS IMPLANTABLE MAGNETOELASTIC SENSORS AND ACTUATORS FOR BIOMEDICAL APPLICATIONS.” 2016. Doctoral Dissertation, Michigan Technological University. Accessed October 24, 2020. http://digitalcommons.mtu.edu/etdr/233.

MLA Handbook (7th Edition):

DeRouin, Andrew. “WIRELESS IMPLANTABLE MAGNETOELASTIC SENSORS AND ACTUATORS FOR BIOMEDICAL APPLICATIONS.” 2016. Web. 24 Oct 2020.

Vancouver:

DeRouin A. WIRELESS IMPLANTABLE MAGNETOELASTIC SENSORS AND ACTUATORS FOR BIOMEDICAL APPLICATIONS. [Internet] [Doctoral dissertation]. Michigan Technological University; 2016. [cited 2020 Oct 24]. Available from: http://digitalcommons.mtu.edu/etdr/233.

Council of Science Editors:

DeRouin A. WIRELESS IMPLANTABLE MAGNETOELASTIC SENSORS AND ACTUATORS FOR BIOMEDICAL APPLICATIONS. [Doctoral Dissertation]. Michigan Technological University; 2016. Available from: http://digitalcommons.mtu.edu/etdr/233


Michigan Technological University

9. Suresh, Govindan. A WIRELESS SENSOR SYSTEM WITH DIGITALLY CONTROLLED SIGNAL CONDITIONING CIRCUIT FOR FORCE MONITORING AT BONE FIXATION PLATES.

Degree: MS, Department of Biomedical Engineering, 2016, Michigan Technological University

  Post-rehabilitation of orthopedic surgery is critical for bone fracture treatments. Current protocols are not based on quantitative assessments of the patient condition but they… (more)

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APA (6th Edition):

Suresh, G. (2016). A WIRELESS SENSOR SYSTEM WITH DIGITALLY CONTROLLED SIGNAL CONDITIONING CIRCUIT FOR FORCE MONITORING AT BONE FIXATION PLATES. (Masters Thesis). Michigan Technological University. Retrieved from http://digitalcommons.mtu.edu/etdr/247

Chicago Manual of Style (16th Edition):

Suresh, Govindan. “A WIRELESS SENSOR SYSTEM WITH DIGITALLY CONTROLLED SIGNAL CONDITIONING CIRCUIT FOR FORCE MONITORING AT BONE FIXATION PLATES.” 2016. Masters Thesis, Michigan Technological University. Accessed October 24, 2020. http://digitalcommons.mtu.edu/etdr/247.

MLA Handbook (7th Edition):

Suresh, Govindan. “A WIRELESS SENSOR SYSTEM WITH DIGITALLY CONTROLLED SIGNAL CONDITIONING CIRCUIT FOR FORCE MONITORING AT BONE FIXATION PLATES.” 2016. Web. 24 Oct 2020.

Vancouver:

Suresh G. A WIRELESS SENSOR SYSTEM WITH DIGITALLY CONTROLLED SIGNAL CONDITIONING CIRCUIT FOR FORCE MONITORING AT BONE FIXATION PLATES. [Internet] [Masters thesis]. Michigan Technological University; 2016. [cited 2020 Oct 24]. Available from: http://digitalcommons.mtu.edu/etdr/247.

Council of Science Editors:

Suresh G. A WIRELESS SENSOR SYSTEM WITH DIGITALLY CONTROLLED SIGNAL CONDITIONING CIRCUIT FOR FORCE MONITORING AT BONE FIXATION PLATES. [Masters Thesis]. Michigan Technological University; 2016. Available from: http://digitalcommons.mtu.edu/etdr/247


Michigan Technological University

10. Nelson, Brad. A Smart Implantable Bone Fixation Plate Providing Actuation and Load Monitoring for Orthopedic Fracture Healing.

Degree: PhD, Department of Biomedical Engineering, 2019, Michigan Technological University

  Fracture non-union occurs in roughly 5-10% of all fracture cases, and current interventions are both time-consuming and costly. There is therefore significant incentive to… (more)

Subjects/Keywords: Fracture healing; fixation plate; lmhf; piezoelectric; Biomedical Devices and Instrumentation

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APA (6th Edition):

Nelson, B. (2019). A Smart Implantable Bone Fixation Plate Providing Actuation and Load Monitoring for Orthopedic Fracture Healing. (Doctoral Dissertation). Michigan Technological University. Retrieved from https://digitalcommons.mtu.edu/etdr/898

Chicago Manual of Style (16th Edition):

Nelson, Brad. “A Smart Implantable Bone Fixation Plate Providing Actuation and Load Monitoring for Orthopedic Fracture Healing.” 2019. Doctoral Dissertation, Michigan Technological University. Accessed October 24, 2020. https://digitalcommons.mtu.edu/etdr/898.

MLA Handbook (7th Edition):

Nelson, Brad. “A Smart Implantable Bone Fixation Plate Providing Actuation and Load Monitoring for Orthopedic Fracture Healing.” 2019. Web. 24 Oct 2020.

Vancouver:

Nelson B. A Smart Implantable Bone Fixation Plate Providing Actuation and Load Monitoring for Orthopedic Fracture Healing. [Internet] [Doctoral dissertation]. Michigan Technological University; 2019. [cited 2020 Oct 24]. Available from: https://digitalcommons.mtu.edu/etdr/898.

Council of Science Editors:

Nelson B. A Smart Implantable Bone Fixation Plate Providing Actuation and Load Monitoring for Orthopedic Fracture Healing. [Doctoral Dissertation]. Michigan Technological University; 2019. Available from: https://digitalcommons.mtu.edu/etdr/898


Michigan Technological University

11. Karipott, Salil Sidharthan. MAGNETOSTRICTIVE BONE FIXATION DEVICE FOR CONTROLLING LOCAL MECHANICAL STIMULI TO BONE FRACTURE SITES.

Degree: PhD, Department of Biomedical Engineering, 2019, Michigan Technological University

  Several studies have shown the impact of mechanical environments on fracture healing. Studies on the low magnitude, high frequency (LMHF) mechanical stimulations (tens of… (more)

Subjects/Keywords: Biomechanics and Biotransport; Biomedical Devices and Instrumentation; Biomedical Engineering and Bioengineering; Other Biomedical Engineering and Bioengineering

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APA (6th Edition):

Karipott, S. S. (2019). MAGNETOSTRICTIVE BONE FIXATION DEVICE FOR CONTROLLING LOCAL MECHANICAL STIMULI TO BONE FRACTURE SITES. (Doctoral Dissertation). Michigan Technological University. Retrieved from https://digitalcommons.mtu.edu/etdr/907

Chicago Manual of Style (16th Edition):

Karipott, Salil Sidharthan. “MAGNETOSTRICTIVE BONE FIXATION DEVICE FOR CONTROLLING LOCAL MECHANICAL STIMULI TO BONE FRACTURE SITES.” 2019. Doctoral Dissertation, Michigan Technological University. Accessed October 24, 2020. https://digitalcommons.mtu.edu/etdr/907.

MLA Handbook (7th Edition):

Karipott, Salil Sidharthan. “MAGNETOSTRICTIVE BONE FIXATION DEVICE FOR CONTROLLING LOCAL MECHANICAL STIMULI TO BONE FRACTURE SITES.” 2019. Web. 24 Oct 2020.

Vancouver:

Karipott SS. MAGNETOSTRICTIVE BONE FIXATION DEVICE FOR CONTROLLING LOCAL MECHANICAL STIMULI TO BONE FRACTURE SITES. [Internet] [Doctoral dissertation]. Michigan Technological University; 2019. [cited 2020 Oct 24]. Available from: https://digitalcommons.mtu.edu/etdr/907.

Council of Science Editors:

Karipott SS. MAGNETOSTRICTIVE BONE FIXATION DEVICE FOR CONTROLLING LOCAL MECHANICAL STIMULI TO BONE FRACTURE SITES. [Doctoral Dissertation]. Michigan Technological University; 2019. Available from: https://digitalcommons.mtu.edu/etdr/907


Michigan Technological University

12. Zhang, Zhongtian. Studying mass and mechanical property changes during the degradation of a bioadhesive with mass tracking, rheology and magnetoelastic (ME) sensors.

Degree: MS, Department of Biomedical Engineering, 2018, Michigan Technological University

  In this research, the degradable polymer 4-arm poly (ethylene glycol)-glutaric acid-dopamine (PEG-GA-DM4) was synthesized. The degradation behavior of crosslinked PEG-GA-DM4 bioadhesive was studied with… (more)

Subjects/Keywords: tissue adhesive; degradation; mechanical property; magnetoelastic; rheology; Biology and Biomimetic Materials; Biomaterials; Biomedical Devices and Instrumentation

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APA (6th Edition):

Zhang, Z. (2018). Studying mass and mechanical property changes during the degradation of a bioadhesive with mass tracking, rheology and magnetoelastic (ME) sensors. (Masters Thesis). Michigan Technological University. Retrieved from https://digitalcommons.mtu.edu/etdr/701

Chicago Manual of Style (16th Edition):

Zhang, Zhongtian. “Studying mass and mechanical property changes during the degradation of a bioadhesive with mass tracking, rheology and magnetoelastic (ME) sensors.” 2018. Masters Thesis, Michigan Technological University. Accessed October 24, 2020. https://digitalcommons.mtu.edu/etdr/701.

MLA Handbook (7th Edition):

Zhang, Zhongtian. “Studying mass and mechanical property changes during the degradation of a bioadhesive with mass tracking, rheology and magnetoelastic (ME) sensors.” 2018. Web. 24 Oct 2020.

Vancouver:

Zhang Z. Studying mass and mechanical property changes during the degradation of a bioadhesive with mass tracking, rheology and magnetoelastic (ME) sensors. [Internet] [Masters thesis]. Michigan Technological University; 2018. [cited 2020 Oct 24]. Available from: https://digitalcommons.mtu.edu/etdr/701.

Council of Science Editors:

Zhang Z. Studying mass and mechanical property changes during the degradation of a bioadhesive with mass tracking, rheology and magnetoelastic (ME) sensors. [Masters Thesis]. Michigan Technological University; 2018. Available from: https://digitalcommons.mtu.edu/etdr/701

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