Privacy Policy

Privacy Policy for AMIE STUDY CENTRE

At AMIE STUDY CENTRE, accessible from https://amiestudycentre.blogspot.com/, one of our main priorities is the privacy of our visitors. This Privacy Policy document contains types of information that is collected and recorded by AMIE STUDY CENTRE and how we use it.

If you have additional questions or require more information about our Privacy Policy, do not hesitate to Contact through email at somdutta68@gmail.com

We are providing only guidance to students for their preparation of AMIE exam. For any sallybus related and other query pls. visit IEI website https://www.ieindia.org/webui/iei-home.aspx

Log Files

AMIE STUDY CENTRE follows a standard procedure of using log files. These files log visitors when they visit websites. All hosting companies do this and a part of hosting services' analytics. The information collected by log files include internet protocol (IP) addresses, browser type, Internet Service Provider (ISP), date and time stamp, referring/exit pages, and possibly the number of clicks. These are not linked to any information that is personally identifiable. The purpose of the information is for analyzing trends, administering the site, tracking users' movement on the website, and gathering demographic information.

Cookies and Web Beacons

Like any other website, AMIE STUDY CENTRE uses 'cookies'. These cookies are used to store information including visitors' preferences, and the pages on the website that the visitor accessed or visited. The information is used to optimize the users' experience by customizing our web page content based on visitors' browser type and/or other information.

Google DoubleClick DART Cookie

Google is one of a third-party vendor on our site. It also uses cookies, known as DART cookies, to serve ads to our site visitors based upon their visit to www.website.com and other sites on the internet. However, visitors may choose to decline the use of DART cookies by visiting the Google ad and content network Privacy Policy at the following URL – https://policies.google.com/technologies/ads

Privacy Policies

You may consult this list to find the Privacy Policy for each of the advertising partners of AMIE STUDY CENTRE. Our Privacy Policy was created with the help of the GDPR Privacy Policy Generator

Third-party ad servers or ad networks uses technologies like cookies, JavaScript, or Web Beacons that are used in their respective advertisements and links that appear on AMIE STUDY CENTRE, which are sent directly to users' browser. They automatically receive your IP address when this occurs. These technologies are used to measure the effectiveness of their advertising campaigns and/or to personalize the advertising content that you see on websites that you visit.

Note that AMIE STUDY CENTRE has no access to or control over these cookies that are used by third-party advertisers.

Third Pary Privacy Policies

AMIE STUDY CENTRE's Privacy Policy does not apply to other advertisers or websites. Thus, we are advising you to consult the respective Privacy Policies of these third-party ad servers for more detailed information. It may include their practices and instructions about how to opt-out of certain options. You may find a complete list of these Privacy Policies and their links here: Privacy Policy Links.

You can choose to disable cookies through your individual browser options. To know more detailed information about cookie management with specific web browsers, it can be found at the browsers' respective websites. What Are Cookies?

Children's Information

Another part of our priority is adding protection for children while using the internet. We encourage parents and guardians to observe, participate in, and/or monitor and guide their online activity.

AMIE STUDY CENTRE does not knowingly collect any Personal Identifiable Information from children under the age of 13. If you think that your child provided this kind of information on our website, we strongly encourage you to Contact immediately and we will do our best efforts to promptly remove such information from our records.

Online Privacy Policy Only

This Privacy Policy applies only to our online activities and is valid for visitors to our website with regards to the information that they shared and/or collect in AMIE STUDY CENTRE. This policy is not applicable to any information collected offline or via channels other than this website.

Consent

By using our website, you hereby consent to our Privacy Policy and agree to its Terms and Conditions.

Comments

Welder qualification procedure as per ASME Sec IX

WELDER QUALIFICATON PROCEDURE (FOR PLATE &PIPING) 1. Test positions for performance qualification 1.1 Positions (Groove weld) plate & pipe: - An angular deviation of plus or minus 15° From specified horizontal and vertical planes is permitted during welding. Position for qualification as per ASME IX QW-461.3 & QW-461.4 Table. 1 Plate Positions Pipe Positions a) Vertical Position 3G (Fig.1a) b) Overhead Positions 6G- (Fig.1b) b) Overhead Position 4G (Fig.1a) Fig. 1 Position of test peace for Groove weld (Plate & Pipe). 1.2 Test Positions for Fillet Welds: - An angular deviation of plus or minus 15° from the specified horizontal and vertical planes is permitted during welding. Position for qualification as per ASME QW-461.5 Table.2 Fillet joint Positions a) Vertical 3F b)

Lathe machine

TYPES OF LATHE Lathes are manufactured in a variety of types and sizes, from very small bench lathes used for precision work to huge lathes used for turning large steel shafts. But the principle of operation and function of all types of lathes is same. The different types of lathes are: 1. Speed lathe ( a ) Wood working ( b ) Spinning ( c ) Centering ( d ) Po1ishing 2. Centre or engine lathe ( a ) Be1t drive ( b ) Individual motor drive ( c ) Gear head lathe 3. Bench lathe 4. Tool room Lathe 5. Capstan and Turret 1athe 6. Special purpose lathe ( a ) Whee1 lathe ( b ) Gap bed lathe ( c ) Dup1icating lathe ( d ) T-lathe 7.Automatic lathe Speed Lathe Speed lathe is simplest of all types of lathes in construction and operation. The important parts of speed lathe are following- (1) Bed (2) Headstock (3) Tailstock, and (4) Tool post mounted on an adjustable slide. It has no

Minimum required thickness of process pipeline (Engineering calculation)

Pressure Calculation Calculator:Minimum required thickness of pipeline for service as per ASME B31.3 Design Pressure (PSI): Diameter (inch): Stress 'S' (PSI): Quality Factor 'E': Weld Joint Reduction Factor 'W': Coefficient 'Y': Calculate Results: Min. Reqired Thickness tm (inch): 12.5% Allowance (inch): Mini. Required Thicknes (mm): After getting 12.5% allowance (inch) value again check ASME B36.10 or API 574 piping thickness table and choose thicknes value higher then this value for service. Calculating the Minimum Required Thickness of Pipelines for Service as per ASME B31.3 Introduction: In the field of engineering, designing safe and reliable pipelines is of utmost importance. The American Society of Mechanical Engineers (ASME) B31.3 code provides guidelines for the design and construction of process piping systems. One cr

Ultrasonic Flaw Detection: Unveiling the Power of Sound in Non-Destructive Testing

Introduction: Non-destructive testing (NDT) techniques play a vital role in ensuring the integrity and safety of structures, materials, and components in various industries. Among the array of NDT methods available, ultrasonic flaw detection stands out as a powerful and versatile technique. In this blog, we will explore the fundamentals of ultrasonic flaw detection, its applications, and the benefits it offers in detecting and characterizing defects without causing damage. Join us as we dive into the world of sound waves and their ability to reveal hidden flaws. 1. Understanding Ultrasonic Flaw Detection: 1.1 The Basics of Ultrasonics: We'll introduce the principles of ultrasonics, explaining how sound waves are generated, propagated, and detected. 1.2 Interaction with Materials: We'll explore how ultrasonic waves interact with different materials, including their reflection, transmission, and absorption behaviors. 2. How Ultrasonic Flaw Detection Works: 2.1 Transducers: We'

Calculator: Remaining Thickness of Pressure vessel API 510 (Identify remaining thickness is safe/unsafe)

Thickness Calculation Remaining Thickness of Pressure vessel to identify safe for service Design Pressure (psi): Radius (inch): Stress (psi) ASME Sec VIII Div 1: Efficiency 'E': T(nominal) (inch): Metal Loss (inch): Calculate Remaining Thickness of Pressure vessel API 510 (Identify remaining thickness is safe/unsafe) Introduction: In the field of pressure vessel inspection and maintenance, determining the remaining thickness of the vessel is of utmost importance. This calculation helps assess the structural integrity of the vessel and ensures its safe operation. In this blog post, we will explore the method for calculating the remaining thickness of a pressure vessel as per API 510 standards. Formula for Minimum Thickness (Tmin): The API 510 standard

Purging Gas in Gas Tungsten Arc Welding: Enhancing Weld Quality and Integrity

Introduction: In the realm of welding, achieving high-quality welds with excellent integrity is paramount. One crucial technique that aids in this endeavor is the use of purging gas. Purging gas plays a vital role in preventing oxidation and ensuring a clean, controlled environment during welding. In this blog, we will explore the significance of purging gas, its purpose, techniques, and benefits in various welding applications. Join us as we delve into the world of purging gas and its impact on weld quality. Back purging is most important phenomenon in GTAW process because this process is mostly used in Stainless steel. Stainless steel is widely used fabrication of chemical, petrochemical, food etc. plant. All thin section and root welding is performed by GTAW process. GTAW process is also very popular in Aluminum welding. In all large diameter pipe the root pass welding is done by GTAW process where the back purging is mandatory. Purging gas protect the weld metal fro

Energy efficiency in Thermal utilities (Chapter 3: Steam System)

Energy efficiency in Thermal utilities (Chapter 3: Steam System) Introduction Steam has been a popular mode of conveying energy since the industrial revolution. Steam is used for generating power and also used in process industries such as sugar, paper, fertilizer, refineries, petrochemicals, chemical, food, synthetic fiber and textiles. The following characteristics of steam make it so popular and useful to the industry: ¢ Highest specific heat and latent heat ¢ Highest heat transfer coefficient e Easy to control and distribute Cheap and inert Properties of Steam Water can exist in the form of solid, liquid and gas as ice, water and steam respectively. If heat energy is added to water, its temperature rises until a value is reached at which the water can no longer exist as a liquid. We call this the “saturation” point and with any further addition of energy, some of the water will boil off as steam. This evaporation requires relatively large amounts of energy, and whil

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