Kode Mata KuliahAE2203 / 4 SKS
Penyelenggara136 - Aerospace Engineering / FTMD
KategoriLecture
Bahasa IndonesiaEnglish
Nama Mata KuliahMaterial dan Metode Manufaktur DirgantaraAerospace Materials and Manufacturing Methods
Bahan Kajian
    1. Introduction: design process, tools, product development, cost
    2. Material classification: crystalline, FCC, BCC, HCP, non-crystalline
    3. Metallic material: steel, aluminum, titanium, magnesium, super alloy. Phase transformation: eutectic, eutectoid, peritectoid. Microstructures: Austenite, Ferrite, Carbide, defect, dislocation
    4. Mechanical properties: tensile, shear, and torsional tests. Elastic and plastic properties, hardness tests
    5. Non-metallic materials: Composite materials, hybrid metal composite materials, cellular materials, anisotropy, natural materials
    6. Material property charts: strength to weight concept, cost concept, selection strategies, material attribute
    7. Material Performance Index: Young Modulus-Density, Yield Strength – Density, Fracture toughness – Density, Thermal expansion – Density, Strength-Cost
    8. Limit and material indices, Yield limited design, design for stiffness, bending, torsion, tension/compression
    9. Fatigue and fracture mechanics, diffusion and creep, corrosion, fail safe design
    10. Process and the effect of properties, process selection strategy
    11. Metal forming, composite forming, joining, finishing, additive manufacture
    12. Aircraft Material Selection: wing spar, skin, radome, jet turbine blade
    13. Material selection of mechanical components: spring, flywheel, pressure vessels
    14. Design case studies: pressure vessels, connecting rods for high performance engines, cost effective bumpers, disk brake calipers
    15. Case study: Wing structure, Pressure vessel fail safe design, Airframe creep design
    16. Forensic analysis case study: railway crack failure analysis
    17. Composite designs: for stiffness, anisotropy, thermal
    18. Designing metal matrix composites
    Capaian Pembelajaran Mata Kuliah (CPMK)
    1. Mahasiswa dapat memahami hubungan antara struktur dalam bahan dan pengaruhnya terhadap sifat-sifat mekanik bahan.
    2. Mahasiswa dapat memahami prinsip penguatan bahan logam dan aplikasinya.
    3. Mahasiswa dapat menjelaskan tentang paduan baja, aluminum, magnesium, titanium, dan superalloy serta aplikasinya pada struktur pesawat terbang.
    4. Mahasiswa dapat menjelaskan jenis-jenis metoda manufaktur, masalah-masalah utama dalam proses manufaktur, dan strategi pemilihan proses manufaktur bahan logam.
    5. Mahasiswa dapat memahami jenis-jenis kegagalan pada bahan logam.
    6. Mahasiswa dapat menjelaskan tentang apa itu polimer, keramik dan komposit, serta pengaruh bahan-bahan penyusunnya.
    7. Mahasiswa dapat menjelaskan proses manufaktur polimer, keramik dan bahan komposit menjadi sebuah komponen atau struktur.
      Metode PembelajaranTatap muka, Studi kasus, Praktikum
      Modalitas PembelajaranLuring, Sinkron, Mandiri dan Kelompok
      Jenis NilaiABCDE
      Metode PenilaianTugas, Tugas besar semester (Term Project), Praktikum, Ujian tengah semester I, Ujian tengah semester II
      Catatan Tambahan