Summary of available data
The data available in Granta EduPack is grouped into databases, which are also assigned a Level (1-3) according to the approximate course year they can be used from. There are two types of database available to use with Granta EduPack:
- The databases supplied with Granta EduPack, listed below.
- Extra Databases that the Granta EduPack team are currently working on. These are made available in return for feedback.
You can find more information about each of the tools and databases included with Granta EduPack by reading the white papers.
Included in Granta EduPack Introductory
The Introductory edition of Granta EduPack includes the Level 1 and 2 databases from all previous EduPack Editions, plus the Level 3 MaterialUniverse database. The 
Eco Audit tool is also part of the Introductory edition, and all databases can be used with it.
Level 1 (MaterialUniverse)
Including Niveau 1, Nivel 1, and Ebene 1
This database is aimed at introductory courses. It has records for common engineering materials (metals, plastics, ceramics, glasses, composites, and natural materials). It contains more than 60 records, each with a limited set of attributes to introduce students to materials without overwhelming them with detail. Each attribute is linked to a set of Science Notes that provides more information about the properties and their origins. Each material is linked to records for processes that are used to shape, join, or finish it. Images are included to engage student interest and help them to identify the information with a real product and processes.
Level 2 (MaterialUniverse)
Including Niveau 2, Nivel 2, and Ebene 2
This database is aimed at more advanced introductory courses that involve project work. It contains a comprehensive set of mechanical, thermal and electrical properties, as well as eco properties and durability information, for more than 100 common materials. Each material is linked to records for processes that are used to shape, join, or finish it. The process records include a simple cost model that allows cost-comparisons between alternative processes. Images are included to engage student interest and help them to identify the information with a real product.
Architecture
This database is aimed at more advanced introductory courses that involve project work. It contains more than 120 materials commonly used in Architectural applications, including engineered woods, steels, concretes, bricks, and cements etc. A comprehensive set of mechanical, thermal, electrical, hygro-thermal, acoustic and eco properties are provided along with durability information. The materials are grouped by where in a building they can be used. Each material is linked to records for processes that are used to shape, join, or finish it. Images are included to engage student interest and help them to identify the information with something real.
Level 2 Bioengineering
This database is aimed at more advanced introductory courses in the Bioengineering field. At its core is a comprehensive set of mechanical, thermal, and electrical properties, as well as eco properties and durability information, for more than 250 common materials. This is supplemented by records on "Bio" materials of all kinds; biological, bio-derived, natural, and bio-medical. The records have extra data on their compatibility with the human body and whether they have been used in medical devices.
The additional Bio-related folders of materials have a description of what that group of materials is all about. Each material is linked to records for processes that are used to shape, join or finish it. The process records include a simple cost model that allows cost-comparisons between alternative processes. Images are included to engage student interest and help them to identify the information with a real product.
Medical Devices
This database is aimed at more advanced introductory courses in the Bioengineering field. Offering a complementary, product-based approach to the Bioengineering database, the Medical Devices database includes datasheets and regulatory information for over 30 generic medical devices and 60 products currently on the market. Datasheets include detailed illustrations of the device in-situ as well as standalone, and links to materials datasheets in MaterialUniverse.
Level 2 Sustainability
This database is aimed at more advanced introductory courses that involve project work. It can also be used to introduce sustainability concepts to students who do not study material science, such as economics or business majors. It contains a comprehensive set of mechanical, thermal, optical, electrical, magnetic and environmental properties for over 100 engineering materials. Environmental properties include water usage, carbon footprint, embodied energy, and end of life information. This is supplemented by data on the material’s country of origin and whether the material is considered a critical material, with links to data on the nations where materials come from and the regulations applicable to materials around the world. This helps students to have a rounded view of the sustainability of a technological development. Finally, data tables on energy storage and generation are also included, as energy usage is a key part of the sustainability question.
Design
This database is aimed at more advanced introductory courses in Product Design and related fields. Engage students of both Engineering and Design through a visually inspiring, interactive database of products, including additional aesthetic properties and how they relate to underlying materials properties and principles.
The Elements
This database provides the fundamental properties of elements across the Periodic Table. This is particularly helpful for materials science courses, physics courses, or engineering courses with more materials depth.
It contains 149 records for 118 elements (some have two or three allotropic forms requiring separate records). There are over 70 properties for each record, listing position in the Periodic Table, electronic, crystallographic, structural, mechanical, thermal, nuclear, electrical, and magnetic properties. Diffusion data and surface energies are included along with critical material status, with suggested substitute elements for typical applications.
Materials Science and Engineering
This database supports introductory materials courses, particularly those that have a science-led approach. It fundamentally tries to explain how processing affects structure and therefore properties in materials, by providing students with data on a wide range of Functional, Biological and Structural Materials, and an interactive Phase Diagram Tool to illustrate phases, the lever rule and microstructure development. Additional subsets of materials data illustrate how heat treatment, composition, sintering, polymer blending, and foaming affect basic properties. The database also includes Structure Science Notes, explaining mechanisms such as precipitate hardening and electron scattering.
Level 3 (MaterialUniverse)
Contains extensive engineering, economic, and environmental data for over 4000 generic classes of engineering materials, making it ideal for materials selection, cost optimization, and eco design. The strength of this data is that it contains no 'holes' - property values are either populated with known, referenced data; or with values estimated using Granta’s estimation and normalization techniques. This allows materials to be screened and ranked based on properties that are not commonly quoted for all materials.
MaterialUniverse also includes ProcessUniverse, which provides information on the main manufacturing processes used for shaping, joining, and surface treatment of materials. Each datasheet summarizes the key characteristics and capabilities of the process, and is linked to applicable materials in the MaterialUniverse.
Included in Granta EduPack
The full edition of Granta EduPack contains all of the data and tools included in Granta EduPack Introductory, plus advanced Level 3 databases suitable for high-level courses and projects in Sustainability, Aerospace, Eco Design, and Polymers.
The advanced Level 3 databases now come with a suite of industry-level tools and selection methods enabled:
Level 3 Aerospace
This database is aimed at higher-year University teaching, project work and real design projects. It contains a comprehensive set of mechanical, thermal, optical, electrical, magnetic and environmental properties for over 3,900 engineering materials. Data on temperature-dependent properties are included. These are taken from the Metallic Materials Properties Development and Standardization (MMPDS) database, which is also included in its entirety. This is the preeminent source for aerospace component design allowables relating to alloys and fasteners, containing over 2,000 records of statistically-derived design data for aerospace alloys in various forms and thicknesses, as well as fatigue curves, and corrosion rankings. It also contains a complete fastener database comprising over 1,000 sheet metal/fastener combinations. The Composite Materials Handbook, CHM-17 is the leading source of test data for advanced polymer, metal, and ceramic matrix composites; containing numerous properties as a function of temperature, lay-up and orientation.
Level 3 Bioengineering
This database is aimed at higher-year University teaching, project work and real design projects. It contains a comprehensive set of mechanical, thermal, optical, electrical, magnetic and environmental properties for over 3,900 engineering materials. Additionally there are extra natural, bio-derived, and biomedical materials and accompanying data such as biocompatibility that enables students to compare natural and synthetic materials, consider sustainable alternative materials and select materials for biomedical applications. Each attribute within a record is linked to a set of Science Notes that provide more information about the properties and their origins. Each material is linked to records for processes that are used to shape, join or finish it.
Level 3 Eco Design
This database is aimed at higher-year University teaching, project work and real design projects. It contains a comprehensive set of mechanical, thermal, optical, electrical, magnetic and environmental properties for over 3,900 engineering materials. Environmental properties include whether a material's use is restricted, water usage, carbon footprint, embodied energy, and end of life information. The materials and the content of the records were chosen by the Granta Design team, in collaboration with our users, to enable realistic selection studies and environmental audits for project-based teaching. Each material is linked to records for processes that are used to shape, join, or finish it. The process records include a simple cost model that allows cost-comparisons between alternative processes.
Level 3 Polymer
This database is aimed at higher-year University teaching, project work and real design projects. It contains two datatables; an extended MaterialUniverse, with 900 polymer grades including trade names, impact properties and chemical resistance data as well as the usual set of mechanical, thermal, optical, electrical, magnetic and environmental properties, and Global Polymers Plastics, a huge resource of 96,000 plastic resins specification sheets from vendors worldwide. By using the links between these databases you can perform an initial selection of the polymer grade and filler type in MaterialUniverse, and then go on to find purchasable materials and their specification sheets in the Global Polymers Plastics database.
Level 3 Sustainability
This database is aimed at higher-year University teaching, project work and real design projects. It contains a comprehensive set of mechanical, thermal, optical, electrical, magnetic and environmental properties for over 3,900 engineering materials. Environmental properties include whether a material's use is restricted, water usage, carbon footprint, embodied energy, and end of life information. This is supplemented by data on the material’s country of origin and whether it is considered a critical material. This links to data on the nations where materials come from and the regulations applicable to materials around the world. This database can be used to teach students about the complexities of sustainable development, developing their skills in information analysis and debate, ready to take a full part in policy decisions as well as technical decisions. Finally, data tables on energy storage and generation are also included, as energy usage is a key part of the sustainability question.
Battery Cells
The Battery Cells datatable is included in all advanced Level 3 databases. It provides information on battery cell performance and specifications, representing the performance of generic battery cell types. Datasheets contain information on energy and power specifications, weight, dimensions, nominal ratings and charge/discharge behavior. Information from this table is also used in the Synthesizer tool's Battery Designer, to model the performance of packs and modules created from multiple battery cells, including the influence of cooling systems and casing/insulation materials.