Is Your Steel Structure Resistant To Disasters?

Is Your Steel Structure Resistant To Disasters?

Ensure That Steel Structure Buildings Can Withstand Natural Disasters

Every time a natural disaster occurs, one lesson we learn is that most buildings are never built to withstand extreme events. Make sure you have invested good quality and time in your steel structure.

Recovery from earthquakes, hurricanes, wildfires, and floods is still being done in different parts of the world, and there will be more in the future.

Obviously, disasters can cause a high loss of life and property. There are not many things that can withstand the direct attack of a hurricane, but the steel structure can withstand the flying debris caused by high winds and relatively recent accidents if it is built for the weather. Most of this disaster can be mitigated by safe design and construction with steel. Of all the damaged structures, steel structures survived the best.

Material And Design

The strength of commercial-grade steel is the highest of any traditional building material. As building codes become more stringent, steel is one of the few materials that can meet these requirements.

Steel is not flammable. Sparks reaching the structure will not produce glow and are flame retardant. The steel has a defensive coating to prevent corrosion from moisture. Internal walls built with steel nails only need to replace the damaged gypsum board instead of the entire wooden wall frame.

As the preferred building material to resist natural disasters, steel also reduces reliance on less sustainable products, thereby reducing the speed of construction. The steel structure complies with most building codes, provides a greater margin of safety, and reduces the possibility of damage.

Is Your Steel Structure Resistant To Disasters?
Is Your Steel Structure Resistant To Disasters?

Special Considerations

A solid foundation is essential, and soil samples and consultations with geotechnical engineers will provide foundation designers with the information needed to design a foundation that can support a rocking structure.

Extremely strong winds will produce uplifts. Therefore, a strong roof and architectural design are imperative. The steel roof system and frame with lock design strengthened the corners and overhangs to prevent the upper part of the structure from flying out.

5 Major Types Of Engineers

5 Major Types Of Engineers

Confuse About Getting An Engineering Degree?

Here are some of the useful information about engineers, so choose wisely.

Engineering professions vary greatly. The differences between the various branches of engineering indicate that the term “engineer” means different things in different contexts. Although some engineers are struggling with manufacturing issues, others are in charge of road construction and food processing. Austin Nichols Technical Search is a human resources company that assigns engineers to five work areas.

Five major types of engineering work are explained here.

Mechanical Engineering

Mechanical engineers are responsible for designing and manufacturing products and machines. Mechanical engineering is one of the most diverse branches of engineering. In fact, mechanical engineers are responsible for creating things, from spacecraft to miniature sensors to car parts.

As with all engineering fields, mechanical engineering requires problem-solving skills to help develop and design some of the most important mechanical components we all use. In addition, mechanical engineers rely on their creativity and analytical skills to turn products from ideas into reality.

Mechanical engineering majors include aerospace, automotive, computer-aided design (CAD), robotics, nanotechnology, etc.

Electrical Engineering

Electrical engineering focuses on electrical technology. These engineers work on electrical components, equipment, and systems. Projects can include small components such as microchips or large generators involving power plants. Moreover, Electrical engineers have a reputation for inventing radios, televisions, induction motors, etc. Without electrical engineers, these high-quality products will not be available. One of the most famous electrical engineers was Thomas Edison, who was praised for inventing the light bulb. Today’s electrical engineering includes branches such as power generation, batteries, electronics, and motors.

Engineers are responsible for designing and developing electrical equipment every day and then testing and supervising these projects.

Industrial Engineering

Then we have, Industrial engineers, use a combination of science, mathematics, and engineering methods to design equipment, buildings, and information systems. These engineers also help run the business by determining the number of workers required for the project, how long the project will take, and the processes involved in the project. Unlike many other engineering disciplines, industrial engineers can work in almost any industry. For example, industrial engineers work in fields such as healthcare, finance, entertainment, technology, and manufacturing.

Chemical Engineering

If you are interested in physics and microbiology, then chemical engineering may be for you. Chemical engineers combine engineering and science to help process food, make industrial chemicals, and make medicines. Due to the variety of industries that rely on the products they manufacture, chemical engineers are in great demand.

Civil Engineering

Next is Civil engineering is one of the most popular engineering majors. In fact, it is also one of the oldest engineering types in the world. Civil engineers are responsible for urban and rural infrastructure construction. For example, civil engineers built roads, bridges, dams, and buildings. In essence, without civil engineers, the city as we understand it would not exist. Everything from water to subway construction was influenced by civil engineers at some point.

Final words:

People often feel a little confused about different types of engineers. This is understandable because many of these disciplines seem to work together or overlap. For engineers, it is important to distinguish between the types of engineers, especially when looking for a job. So, choose the right engineering field for you. Or you can hire a well educational consultant for this.

Major Types of Steel

Types of Steel: What Kind Of Steel You Should Use?

Types of Steel: What Kind Of Steel You Should Use?

Steel is a very strong element, it has many different grades, and has a unique chemical composition. Now, with the wide range of properties of steel and different steel alloys, it is shocking that all types, even CNC machined steel, are composed of only two substances: iron and carbon.

However, the real difference starts when you use additional carbon and alloying elements. As you can see, the toughness and strength of steel depend on the added elements (such as manganese and phosphorus) introduced during its forging process, which define the grade for its specific application. So if you want to know what kind of steel to buy to meet your needs, you need to understand the chemical composition of the physical properties of steel, divided into four basic types of steel.

Top Four Types Of  Steels

1. Carbon steel

Carbon steel looks dull and dull and is known to be corroded. Broadly speaking, this kind of steel is divided into three subtypes: low, medium, and high carbon steel, with a low carbon content of about 30%, medium content of 60%, and high content of 1.5%. The name itself comes from the fact that it contains very small amounts of other alloying elements. They are extremely sturdy, which is why they are often used to make knives, power cords, car parts, and other similar items.

Types of Steel: What Kind Of Steel You Should Use?

2. Alloy steel

Next is alloy steel, which is a mixture of several different metals, such as nickel, copper, and aluminum. These tend to be cheaper and more wear-resistant, and are the first choice for some auto parts, pipes, hulls, and mechanical projects. For her, strength depends on the concentration of the elements it contains.

3. Tool steel

Tool steel is known for its durability, heat resistance, and scratch resistance. The name stems from the fact that they are often used to make metal tools (such as hammers). As for these, they are made of materials such as cobalt, molybdenum, and tungsten, which is the main reason why tool steel has such advanced durability and heat resistance.

4. Stainless steel

Last but not least, stainless steel is probably the most popular type on the market. This type is shiny and generally contains 10-20% chromium, which is the main alloying element. Through this combination, it can make steel corrosion-resistant and easy to cast into various shapes. Due to its ease of operation, flexibility, and quality, stainless steel can be used in surgical equipment, household applications, tableware, and even as the exterior wall of commercial/industrial buildings.

In conclusion

In 1967, the world produced only 500 million tons of steel. However, in 2016, this number rose to more than 1.6 billion. Moreover, according to data from the World Steel Association, 55% of the weight of a typical car is caused by steel. In such a reality, it is difficult to imagine a world without steel. With more than 3,500 different grades of steel, its uses seem endless. From machining and machining to CNC machining of steel, each type has its perfect market segment and characteristics, which can meet almost all needs.

In the final analysis, the different properties of steel are derived from the use of different steel alloys, which boil down to the four types we see today. Therefore, if you are considering buying steel, take the time to determine the desired characteristics of the steel you need and the right quality to get the job done. If you do it now, you will be grateful instead of later discovering that you made the wrong choice.

Importance of Detailing Structural Steel

Importance of Detailing Structural Steel

The importance of structural steel detail design is an important structural steel engineering process, and its accuracy is required to reach 99%. Even a simple mistake can waste precious time and money. Steel detailing is an important and mandatory process in all types of manufacturing and construction activities, such as the construction of residential and commercial buildings, factories and research institutes, and shipbuilding. 

The steel structure detailed design process is an important “communication link” connecting key professionals (such as engineers, architects, contractors, manufacturers, etc.), who are individually and collectively responsible for the highest accuracy at each stage.

Steel structure detailed drawings include the creation of detailed drawings for manufacturers and contractors, including plans and estimates, as well as reports and other important tasks. The process includes two main types of drawings: workshop drawings and assembly drawings.

Preventive Maintenance Checklist For Machines
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Hire Steel Structure Fabrication Drawing Expert

Workshop drawings or detailed drawings specify all the exact details of individual steel parts or assemblies (columns, beams, beams, struts, tie rods, etc.) that must be made by steelworkers. These drawings include material specifications, component dimensions and dimensions, surface specifications, welding details, screws, coatings, and all other information related to the manufacture of each component. These drawings are only related to manufacturing and do not include detailed information on the installation and installation of steel components.

The assembly drawing represents the dimension drawing and specifies the position of each steel component in the overall structure. These drawings include detailed and specific information about the location of each component, installation requirements, and all related fieldwork (such as mounting bolts, wedge anchors, and spot welding).

The steel structure detailing service also includes other important stages, such as reinforcement detail drawing, anchor bolt placement plan, steel structure design, connection drawing, workshop bolt summary, and BoM (bill of materials).

Steel Detailing Standards

Retailers must comply with the steel detail standards of different countries, such as:

  • American Institute of Steel Construction (AISC)
  • American Welding Society (AWS)
  • National Institute of Steel Design (NISD)
  • Canadian Institute of Steel Structure
  • Australian Institute of Steel Structure
  • Euro symbol and British Standard symbol

Importance of Detailing Structural Steel

The structural steel engineer is responsible for the design, strength, and safety of the steel structure, while compliance with key dimensions and building codes is the responsibility of the architect. The retailer is responsible for approving the detailed steel structure drawings of the structural engineers and architects before delivery to manufacturing.

Advantages of Structural Steel Detailing Service

At Ghani Associate, we provide detailed steel drawing services to customers all over the world. Our steel headquarters detailed the Indian headquarters and hired engineers with degrees in structural and civil engineering. In addition, it is also equipped with a wealth of technical expertise and rich experience in steel structure details. Our talented professionals have skills in design, detail design, and writing, all of which are our core competencies.

Our structural steel design team is able to analyze complex design problems and propose solutions that have a significant positive impact on the project. Our knowledge, experience, and expertise in various fields such as 

Construction,

 Civil Engineering,

 Structural Engineering,

 Electrical Engineering, 

Mechanical/Piping Design,

 and various building materials (such as steel and concrete) provide us with the necessary competitive advantage. A collaborative work culture and effective internal systems and processes, coupled with our rich experience, enable our talent pool to provide accurate and consistent work in a timely manner, thereby enhancing our competitive advantage.

Preventive Maintenance Checklist For Machines

Preventive Maintenance Checklist for machines

How To Create A Preventive Maintenance Checklist?

The preventive maintenance checklist describes the tasks that maintenance personnel must perform when inspecting or repairing equipment. To create the final preventive maintenance checklist, follow these steps:

  • Describe your maintenance goals
  • Check your device
  • Know the applicable standards and regulations
  • Choose assets
  • Preventive maintenance task plan for each asset
  • Create a list item
  • Train your employees
  • Monitor and adjust results

These steps are described in more detail below, along with some best practices and benefits of implementing a PM checklist.

Preventive Maintenance Checklist for machines
Preventive Maintenance Checklist for machines

 Tip: We help you get started by creating some sample PM checklists to keep things simple.

Advantages Of Using Prevention Maintainance Checklists

Why use a preventive maintenance checklist in the first place? A well-designed checklist can help reduce human error, increase reliability, and provide other benefits, as detailed below.

Reduce the occurrence of human error

One of the main reasons for implementing PM checklists is that they reduce the impact of human error. No one is immune from accidental errors or memory errors. In fact, research has shown that even a properly qualified and well-trained technician will make an error every 500 times when performing a task, and one error every 25 times when factors such as fatigue are considered!

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Since there is no need to remember every step of each scan, you will have a more consistent management manager because you are less likely to skip important tasks.

Consistency and continuity in the workplace

One of the grim realities facing manufacturers and other industries today is the widening skills gap. Nearly 10,000 workers turn 65 every day, which means they will retire and have decades of work experience.

The PM checklist can reduce the impact of this level of personnel turnover and keep inspections and daily work practices consistent when new workers replace retirees.

 Tip: Other ways to close the skills gap include improving your workplace culture and investing in employee growth.

Faster inspection

If used properly, preventive maintenance checklists can be checked faster than technicians rely on memory only. It is very easy to view the list, check the items, complete the answers and continue to the next item.

Preventive Maintenance Checklist for machines

In addition, when you check that the items on the checklist are placed in the correct order, it can reduce some round trips that may occur during routine maintenance tasks.

Improved troubleshooting practices

Many maintenance tasks today revolve around troubleshooting. To be as efficient as possible, you need to improve the troubleshooting process. The checklist will help you do this.

The items to be checked during the scan are limited to the listed items, which saves time when trying to find the root cause of equipment failures. In addition, you will keep the process consistent, thereby limiting the number of causes of problems with a particular computer.

Simplified PM layout

Through a well-designed PM checklist, each repetitive task has a defined procedure and completion time, which greatly simplifies the maintenance planning process. In addition, using checklists to standardize these tasks makes it easy to identify the tools and materials required for each task.

Ultimately, maintenance planners can focus more on improving work processes and increasing reliability because they spend less time planning individual tasks.

Enhance equipment reliability

All these benefits stem from the improvement of equipment reliability. Maintenance technicians are less likely to lose items during inspections, each job is fully planned, suitable supplies are on hand, and equipment failures and delays are less.