MSMA

(redirected from Magnetic Shape Memory Alloy)
AcronymDefinition
MSMAMissouri State Medical Association (Jefferson City, MO, USA)
MSMAmonosodium methanearsonate (pesticide)
MSMAManual Saliran Mesra Alam (Manual for Malaysia)
MSMAMagnetic Shape Memory Alloy
MSMAMississippi State Medical Association
MSMAMount Saint Mary Academy (various locations)
MSMAMail Systems Management Association (New York, NY)
MSMAMuscle Shoals Music Association (Muscle Shoals, AL, USA)
MSMAMain Street Merchants Association
MSMAMagazine Street Merchants Association (New Orleans, LA)
MSMAMount Soledad Memorial Association (California)
MSMAMaine School Management Association
MSMAMusic Study, Mobility and Accountability
MSMAMember of the Sports Massage Association
MSMAMurray Spalding Movement Arts
MSMAMotorcycle Sports Manufacturers Association
MSMAMaster of Science in Marketing Analytics
MSMAMembrane Structures Manufacturers Association (Canada)
MSMAMichigan Society of Medical Assistants
MSMAMessage Store and Message Access
MSMAMinnesota Street Machine Association
MSMAMaryland Society of Medical Assistants
MSMAMakarov State Marine Academy (St. Petersburg, Russia)
MSMAMoist-Soil Management Advisor (software)
MSMAMaster of Science in Marketing Analysis
MSMAMary Seacole Memorial Association (UK)
MSMAMinnesota State Medical Association
MSMAMetal Stud Manufacturers Association
MSMAMulti-Slice Multi-Angle (medical imaging)
MSMAMargarine and Shortening Manufacturers' Association
MSMAMaryland Society of Medical Acupuncture (also seen as MSMA)
MSMAMid States Meat Association
MSMAMethane Sodium Methyl Arsonate
MSMAMale Sub-Miniature A (connector)
MSMAMinnesota Society of Municipal Analysts
MSMAMichigan State Medical Association
MSMAMeasurement System Methods Analysis
MSMAMassachusetts Society of Medical Assistants, Inc.
MSMAminimum significant measurable activity
MSMAMurrell-Shaw-Musher-Amos Exchange Perturbation Theory
References in periodicals archive ?
The 16 invited papers, written by some 70 international academics and researchers, cover a range of topics including the phenomenological and microscopic mechanisms of the magnetic shape-memory effect, the physical bases of advanced properties of magnetic shape memory alloys, the structural aspects of martensitic transformations in both ferromagnetic and non- ferromagnetic shape memory alloys, technical applications and actuators utilizing shape memory alloys with considerations on their design principles and discussion of simulation results, as well as general issues such as damping, newly-discovered glassy martensite and modeling.