| Kode Mata Kuliah | TK4001 / 3 SKS |
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| Penyelenggara | 130 - Teknik Kimia / FTI |
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| Kategori | Kuliah |
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| Bahasa Indonesia | English |
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| Nama Mata Kuliah | Pengantar Rekayasa Keramik | Introduction to Ceramic Engineering |
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| Bahan Kajian | - Pengertian bahan keramik
- Hubungan struktur dengan sifat-sifat fisik keramik
- Perekayasaan struktur keramik
- Hubungan struktur dengan sifat-sifat fisik gelas
- Perekayasaan struktur gelas
- Potensi dan produksi bahan-bahan baku keramik
- Simulasi termokimia sistem keramik
| - Definition of ceramic materials
- Relationship between structure and physical properties of ceramics
- Ceramic structure engineering
- Relationship between structure and physical properties of glass
- Glass structure engineering
- Potential and production of ceramic materials
- Thermochemical simulation of ceramic systems
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| Capaian Pembelajaran Mata Kuliah (CPMK) | - Mampu memaparkan pengertian, klasifikasi, contoh-contoh penerapan bahan keramik di industri, serta memperbandingkan sifat-sifat fisiknya dengan bahan-bahan konstruksi lain.
- Mampu memaparkan struktur atomik, struktur kristal, & mikrostruktur beberapa golongan keramik yang banyak digunakan, serta hubungan struktur dengan sifat-sifat fisik golongan keramik tersebut.
- Mampu menganalisis perekayasaan struktur keramik dengan menggunakan diagram fasa termodinamika secara manual maupun dengan bantuan komputer, serta memaparkan alur umum pemrosesan keramik.
- Mampu memaparkan struktur & sifat-sifat fisik beberapa jenis bahan gelas yang penting secara industrial.
- Mampu memaparkan unit-unit pemrosesan gelas & mekanisme perekayasaan struktur gelas melalui perlakuan panas.
- Mampu memaparkan sebaran bahan-bahan baku keramik di Indonesia & proses eksploitasi & benefisiasi bahan-bahan baku tersebut.
- Menggunakan paket perangkat lunak simulasi proses modern untuk menjalankan proses teknik kimia
| - Able to explain the meaning, classification, examples of the application of ceramic materials in industry, and compare their physical properties with other construction materials.
- Able to explain the atomic structure, crystal structure, & microstructure of several widely used ceramic groups, as well as the relationship between structure and physical properties of these ceramic groups.
- Able to analyze the engineering of ceramic structures using thermodynamic phase diagrams manually or with the help of computers, and explain the general flow of ceramic processing.
- Able to explain the structure & physical properties of several types of industrially important glass materials.
- Able to explain glass processing units & mechanism of engineering glass structure through heat treatment.
- Able to explain the distribution of ceramic raw materials in Indonesia & the process of exploitation & beneficiation of these raw materials.
- Using modern process simulation software packages to run chemical engineering processes
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| Metode Pembelajaran | Ceramah klasikal, diskusi kelas | Lectures, class discussion |
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| Modalitas Pembelajaran | Luring, daring asinkronik (sebatas untuk penguatan melalui proses pengulangan pembelajaran secara mandiri) | Offline, online asynchronous (limited to reinforcement through the process of repeating learning independently) |
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| Jenis Nilai | ABCDE |
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| Metode Penilaian | Ujian, tugas makalah kelompok | Exam, group paper assignment |
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| Catatan Tambahan | | |
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