Access entrance: engineering technology database
"Engineering Technology Database" is the most accurate, up-to-date, comprehensive and extensive engineering data set, covering multiple fields such as aviation machinery, chemistry, structural engineering, materials science, etc. It mainly provides experience to engineering designers Data processing methods and design problem solutions, with rigorous theoretical derivation, clear empirical formulas and diagrams, are very suitable for solving engineering technical problems.
Each thematic series in the library has reliable sources from multiple sources, and the data information is also expressed in an accurate and concise format, and is the result of filtering a large amount of information. The data is organized into series. Each series covers a specific engineering field. Each series includes several rolls of materials. A large number of data and formulas are provided in the form of computer software (FORTRAN language). The expression is concise and easy to apply. In particular, the library contains a large amount of unpublished information. This key information is only in this library, and this key information is just some of the key information that academic institutions and companies are looking for.
The library is highly professional, and its content focuses on the theoretical design and application aspects of aerospace and engineering building structures. It is an authoritative design calculation tool in this regard; many companies dedicated to the aerospace field attach great importance to the library’s The Ministry of Aviation Industry of my country and its affiliated research institutions have used the data in this database and played an extremely important role in the design of my country’s aircraft. Practice has proved that it has strong strength in the field of engineering design, and is well received by engineering designers.
Statistics
The library now covers five major industries: aerospace, mechanical engineering, chemical engineering, structural engineering, and materials science. The detailed content includes:
Aerodynamics |
50 volumes with 327 data items and software |
Aircraft Noise |
14 volumes with 40 data items and software |
Composites |
10 volumes with 42 data items and software |
Dynamics (Dynamics) |
14 volumes with 47 data items and software |
Fatigue-Endurance Data (Fatigue-Endurance Data) |
12 volumes of 65 data items and software |
Fatigue-Fracture Mechanics (Fatigue-Fracture Mechanics) |
7 volumes with 20 data items and software |
Fluid Mechanics, Internal Flow (Fluid Mechanics, Internal Flow) |
20 volumes with 87 data items and software |
Fluid Mechanics, Internal Flow (Aerospace) |
11 volumes of 52 data items and software |
Heat Transfer |
18 volumes with 61 data items and software |
Mechanisms |
20 volumes of 59 data items and software |
Design Example (Performance) |
28 volumes with 146 data items and software |
Physical Data, Chemical Engineering |
48 volumes with 168 data items and software |
Stress and Strength |
21 volumes with 126 data items and software |
Structures |
29 volumes with 213 data items and software |
Transonic Aerodynamics |
18 volumes of 65 data items and software |
Tribology |
14 volumes 49 data items and software |
Vibration and Acoustic Fatigue |
10 volumes with 66 data items and software |
Wind Engineering |
10 volumes with 46 data items and software |
total |
18 professional categories, a total of 354 volumes. |
Resource role
1. The resources in the database are an important part of the design process of large and small companies and industry professionals. They are important resources respected by scientists and engineers in academic research institutions around the world, and their importance is self-evident.
2. The database has proven methods and solutions. Users can start with an introductory project, study the vivid methods and cases, and then use the validated data items in their own calculations to design better and faster , And reduce the expensive research costs, shorten the redesign and test cycle.
3. The database can help individuals and organizations achieve the following functions:
Improve the design process and improve quality
Supplement the organization's internal design manuals, codes, standards and analysis tools
Improve the ability to solve complex technical problems and develop innovative solutions
Promote the active exploration of new design options and schemes, create greater value, and achieve resource renewal accumulation
4. The database has become a necessary reference tool for students in modern engineering colleges and universities, and its main functions are as follows:
Project research, project design-especially suitable for university undergraduates and graduate students
Complete the thesis-students use the powerful information resources in the library
Auxiliary teaching-teachers can be used as teaching handouts and visual aids