Untitled

Microdesk is the global Building Information Modelling (BIM) firm, which has been dedicated to assisting design, construction and operations teams, along with improving design workflows, and integrating EAM and BIM technologies. This Microdesk has released BIMrx, which is an optimised database solution for the detailers, fabricators, Virtual Design & Construction (VDC) and Building Information Modelling (BIM) Managers.

The Microdesk BIMrx has been developed to streamline the fabrication without sacrificing quality or consistency. This database solution helps to eliminate the mismatched connector errors, unorganised folder structure, inconsistent materials, incorrect bill of materials and time spent searching for parts.

Microdesk BIMrx also helps to assist the AECO industry, along with improving design efficiency and productivity. This feature of the Microdesk BIMrx enables the design and construction professionals to spend more time on innovations and building sustainable facilities.

Concept about the MEP modelling services in Revit software

Mechanical, Electrical and Plumbing (MEP) modelling services are a type of Building Information Modelling (BIM) technology, which includes more detailed information about the mechanical, electrical and plumbing systems of the building structure. The MEP modelling services in BIM have been created by designers and engineers with the help of specialised software and tools.

The MEP modelling services in Revit software help to integrate all aspects of MEP design into one single platform, which helps to ensure the seamless coordination among the structural and architectural design elements. The MEP modelling services also help in the MEP design documentation process, along with an integrated design environment to plan, design and visualise the building systems.

The robust tools of the MEP modelling services in the Revit software enable the design tools to recognise the clashes in the design process, optimise the entire design process and also simulate the overall building performances before the beginning of the construction process.

The Revit MEP modelling services are part of the BIM design workflow, which helps to provide an accurate and data-rich design model and thus helps the construction team to be more efficient and sustainable. The advanced modelling design capabilities and the collaborative tools of the Revit MEP modelling services enable the design team to achieve greater precision, help to reduce design errors and thus, help to deliver the design projects in the most efficient way possible.

Concept about the construction cost breakdown sheet

A construction cost breakdown sheet helps to organise all expenses in the construction project into defined categories. The construction cost breakdown sheet helps to provide a clear view of the contribution of each cost to the total construction budget. Thus, the construction cost breakdown sheet helps to prevent hidden or unexpected expenses in the construction project.

The construction cost breakdown sheet has been used by the project managers to track, control, and forecast spending throughout each and every stage of the building construction project. With the help of the construction cost breakdown sheet, the project team members can track real-time costs, monitor construction performance, and compare the actual versus planned costs to generate accurate reports.

Learn about the key components of a construction cost breakdown sheet

The construction cost breakdown sheet has several key components, which help to represent the different parts of the overall cost structure. These components are as follows:

Labour cost

The labour cost indicates the wages and benefits that have been paid to the workers on the construction site. In this context, the number of labourers and the type of work depend upon the complexity of the construction project. The expected working hours for each labourer should be accounted for to estimate the labour cost.

Equipment cost

The equipment cost refers to the purchase or rental cost for machinery used on the construction site. The equipment cost also includes the maintenance, operation and transportation cost of the equipment.

A 4D construction model is the combination of a 3D design model along with a project schedule, which helps to create a simulation of the construction activities. The 4D construction modelling refers to the breakdown of the design model into the constructible components, which helps to add the design element of time to a 3D design model. The 4D design model helps to stimulate and optimise the construction sequencing, resource planning and site logistics.

4D construction simulation is a part of building information modelling, which offers all kinds of building construction in various sectors, for example, residential, commercial, industrial and others. There are plenty of benefits for the new building construction design projects, for example, 3D visualisation, 4D visualisation along with a time.

4D construction simulation is the extension of 3D design with time included in addition to the other 3 dimensions. 4D construction simulation also helps to link the project construction sequencing or the schedule to the BIM design model, and also helps to show the real-time simulation of the construction sequence. Based on the 4D presentation, the clients can compare the planned and actual construction sequence throughout the life cycle of the project.

How to implement 4D construction simulation in the construction project

Collecting project information and creating a 3D design model

In the case of implementing 4D simulation in the construction project, the project team members need to collect all relevant data related to the construction project, for example, construction schedules, architectural drawings, engineering drawings and resource allocation plans. The design inputs achieved from the 4D construction simulation help to create a detailed 3D design model, which helps to represent the physical elements of the design project more accurately.

Smart buildings refer to buildings that have been designed to optimise the consumption of energy and also improve the comfort of occupants, and help to ensure the management of resources through the use of advanced technologies. These smart buildings integrate the systems, for example, climate control, lighting control, security and environmental monitoring features to a centralised network that can also be managed in real time.

Smart building uses Internet of Things (IoT) sensors and data analytics to respond to the requirements of the users, thus improving the operational efficiency of the smart buildings. The smart buildings have been designed to be sustainable and help to meet the energy efficiency and living comfort zones.

What are the key components of smart buildings

IoT Devices

Several Internet of Things (IoT) devices have been used in smart building operations, which are as follows:

1. Temperature and humidity sensors 2. Smart meters 3. Motion and occupancy sensors 4. Security cameras and access systems 5. Environmental sensors

BIM Platforms

Several BIM platforms have been used in the smart building operations to create, store and manage the building data, which are:

1. BIM 360 2. Archicad 3. Autodesk Revit 4. Navisworks

Smart Controls

The smart control devices have been used in the smart building operations to adjust the building systems automatically on the basis of the sensor input. These smart controls are as follows:

In recent times, the use of technology and robots has enhanced the overall workflow and also improved the quality of the overall project. Construction sites are becoming more automated and robotic with the arrival of robots and automated technology. Nowadays construction is less labour intensive, less wasteful, and environmentally friendly when they are used in the building industry.

What do you mean by Construction Robots?

Construction robots are devices made to automate a variety of operations that would otherwise be done by human employees in the sector. They often use advanced sensors and preprogrammed algorithms to do predefined tasks including lifting, hauling, welding, and other activities.

The construction business has undergone a transformation because of these marvels of contemporary technology, which have enhanced productivity, reduced costs, and improved safety.

In the construction industry, steel has been used as one of the crucial components because of its higher strength, durability and flexibility. In this context, it is important to choose the right type of steel for the construction work. In India, there is a variety of steel grades available, each of which offers different properties.

Each grade of steel is suitable for specific applications. On the basis of the composition and characteristics, the steel grades have been classified into different types and have been created for different uses.

Discuss the different types of steels and their popular grades used in construction work in the Indian standard

Different types of steel and their grades have been used in the Indian construction industry.

Carbon steel

Carbon steel has been widely used in the construction industry due to its strength and hardness, and it is also economical. The carbon steel has a lower count of carbon, but still makes it stronger, counteracting its ductility. The carbon steel can be classified into different types, which are:

Low Carbon Steel: In this type of carbon steel, the carbon content ranges between 0.05% to 0.25%. The low-carbon steel has been used in structural applications, including beams and columns. This type of carbon steel is flexible enough to shape and weld easily.

Medium Carbon Steel: The medium carbon steel has been created with a carbon content range between 0.25%-0.60%. The medium carbon steel has higher strength and hardness than the low carbon steel, although it is not as flexible as the low carbon steel.

High Carbon Steel: The high carbon steel contains the highest proportion of carbon as compared to the low carbon steel and medium carbon steel. The carbon content of the high carbon steel ranges between 0.60%-1.4%, which helps to produce a very hard and brittle material to a certain degree.

RCC beams are structural elements designed to carry transverse external loads that cause bending moment, shear forces and in some cases torsion across their length. Concrete is strong in compression and very weak in tension. So steel reinforcement is used to take up tensile stresses in reinforced concrete beams.

Given below, the details of basic structural elements of a RCC building.

1. Column 2. Beam 3. Slab 4. Foundation

Column Cross Section: If M-15 grade of concrete material is used, the dimension of the column should be 9? x 12?.

If M-20 grade of concrete material is used, the dimension of the column should not be under 9? x 9?.

Column Reinforcement: As per IS 456: 2000 standard, the reinforcement should be 0.8%

As per ACI-318 standard, the reinforcement should be 1%

The CAD blocks used in the design process are pre-made and available as a group of design objects. These CAD blocks have been inserted in the 3D drawings to represent the design components like machinery, furniture or different types of architectural elements.

The CAD blocks can be used in the designs to create the repeated content, for example, drawing symbols, standard details or common design components. The CAD blocks help to save design time, as well as help to maintain design consistency.

In addition, the CAD blocks also help to reduce the file size of the design, thus enabling users to reuse the design content. The CAD block can also be shared by the users along with their colleagues and peers, thus allowing more dynamic collaborations for the design process. The CAD blocks also help to revolutionise the larger design projects, and can streamline the smaller design projects.

Importance of CAD blocks in 3D

Save the design time and adjust the file size

The CAD blocks can be reused within a drawing to save time on repeated design content and help to make everything look consistent. AutoCAD helps to create smart CAD blocks, which help to automate the design process, thus making the design process faster. These CAD blocks can be used rather than recreating the design elements, which helps to reduce the file size of the AutoCAD software.

Structures are exposed to loads, which are applied forces, deformations, or accelerations. A load results in the strain, deformation, and displacement of a structure. An engineering subject known as structural analysis makes an effort to predict how loads will impact structures and structural parts.

When designing a structure, an excess load should be taken into account and regulated as it may result in structural failure. A structure may experience stress, displacement, and deformation from many sorts of loads, which can lead to structural issues or even structural failure. Determining the overall load on a structure is a crucial and complicated process.

Kinds of loads impacting a structure

Safety and economy are two key considerations that are taken into consideration while designing a structure. The economy is impacted if the loads are appraised and taken higher. Safety is jeopardized if loads are carried at a lower rate for the sake of the economy. Therefore, it is necessary to compute accurately the estimation of various active loads.

Dead loads in a Structure

The weight of a building's structural parts, such as beams, walls, roofs, and structural flooring components, is an example of a dead load, also known as a permanent load or a static load. Non-structural permanent dividers, immovable fixtures, and even built-in cabinets are examples of dead loads.

Before any live loads are taken into account, the structure's or other permanent parts' weight is referred to as the dead loads. The overall loading placed on the structure is calculated by adding the live and dead loads together. The volume of each segment is multiplied by the unit material weight to determine the dead loads of each construction.

Live loads in a Structure

Implied loads, also known as living loads, are the second vertical load that must be taken into account while designing a building. Live loads are any moveable or moving objects that are not experiencing acceleration or impact. These loads which can include the weights of mobile walls or furniture, among other things are considered to be generated by the building's intended usage or occupancy.

Robert Morris & Co. is inviting applications for an Architectural Designer/Drafter in Meatpacking, New York office.

The prospective candidate should have the following abilities :

• Graduate of a NAAB recognized 4 or 5 year architecture school • At least 3 years' experience in the production of wood-frame residential construction drawings and millwork/cabinetry detailing, preferably conventional types. • Eagerness to work on both single-family high end residential projects and multi-family projects • Sound knowledge in AutoCAD • Expert knowledge in Revit, SketchUp modeling, Adobe Photoshop, and formation of presentation materials • Experience with NYC DOB and LPC application submissions is essential • Experience and knowledge of NYC building codes

Pile foundation system designs using a simplified model of a more complex real world. That is an engineering process. A pile foundation always includes the calculation of its axial bearing capacity. For estimating unit base and unit shaft resistance values, several methods are used.

The main methods rely on fundamental soil properties, including the angle of friction, or on in situ tests, such as standard penetration depths or cone penetration depths. A thorough understanding of the difference between a model and reality, of its limitations & the feasibility of various methods, is essential.

Theory

Depending on the local building codes, the pile load testing procedure may vary from region to region. It consists of driving a pile and loading it with a load. It shows the pile load test in an extremely simplified manner. Despite this, each major component required to perform a pile load test shows.

Apparatus

When performing pile load testing, the following apparatus is required:

A driven pile

A load usually steel and timber

Hydraulic jack

Deflection gauge

A load indicator

The construction industry is constantly evolving, requiring innovation and efficiency. Slip form construction, a highly specialized technique, exemplifies these qualities. Slip form is a continuous construction method that allows for the uninterrupted pouring and shaping of concrete structures.

This process has gained prominence for its ability to create tall and slender structures efficiently and with precision.

Understanding Slip Form Construction

The Basics of Slip Form

At its core, slip form construction involves a continuously moving formwork system that molds and shapes concrete into various structures such as towers, chimneys, silos, and more. The method is characterized by its ability to create structures with a consistent cross-sectional profile, making it ideal for tall and slender projects where precision is paramount.

The Advantages of Slip Form Construction

Slip form construction offers several advantages over traditional construction methods:

Speed and Efficiency: One of the primary benefits of slip form construction is its speed. The continuous nature of the process reduces downtime and accelerates construction timelines. This efficiency is especially valuable for large-scale projects where time is a critical factor.

Cost Savings: By minimizing the need for manual labor and reducing the construction duration, slip form construction can result in significant cost savings. Additionally, the method's precision ensures minimal material wastage.

Consistency: The continuous slip form process leads to structures with a uniform appearance and structural integrity. This level of consistency is challenging to achieve with traditional construction techniques.

Safety: Slip form construction minimizes the need for workers to be in high-risk areas, enhancing job site safety. Workers are primarily responsible for supervising and maintaining the slip form equipment.

Applications of Slip Form Construction

Slip form construction is utilized in various construction projects, including:

Skyscrapers: Slip form is commonly employed in the construction of tall buildings, where maintaining uniformity and precision is crucial.

Chimneys and Towers: Slip form is ideal for constructing smokestacks, communication towers, and other vertical structures.

Silos and Storage Tanks: The technique is used to create cylindrical storage facilities for materials like grain, cement, and chemicals.

Bridge Piers: Slip form construction is employed to build the piers of bridges and overpasses, ensuring stability and uniformity.

The Bluebeam Revu is a PDF-based collaboration software, which has been designed to improve the design efficiency of the architectural, electrical and construction (AEC) industry. In the latest versions of the Bluebeam Revu software, numerous design tools and enhancements have been added, which help to streamline the project management and document handling process.

Discuss the features of the Bluebeam Revu

Numerous design features have been offered by the Bluebeam Revu software, which are as follows:

Annotation tools

The Bluebeam Revu software offers intuitive markup tools, which enable users to add comments and annotations to the PDF documents. In addition, this software also provides several customisable markups, which enable users to communicate their design ideas along with others.

Takeoff and measurement tools

The advanced measurement tools offered by the Bluebeam Revu software offer several measurement features, including length, area, perimeter and volume measurements. Thus, the users are able to perform accurate takeoffs from the digital plans. The dynamic fill tool of the Bluebeam Revu software also allows users to measure complex areas and volumes in less time, which helps to save the valuable time of users.

Metaverse refers to the virtual reality environment in which users are able to communicate with other users. The virtual cosmos represented by the Metaverse can be encountered like the real world in 3D. The Metaverse helps to provide an experience of the place to the users as it is being produced.

The Metaverse also enable the architects and designers to visually represent the area that relies on 3D modelling and visualisations to build spaces. Thus, architects and designers can remotely collaborate on the design concepts. The Metaverse also enable users to create construction places more effectively. The Metaverse is effective in each step of the building construction, including the design of the building, development of the building and building process.

Discuss the impact of the Metaverse on the construction process

The entire building construction process has been impacted by the Metaverse in the building construction project.

Enabling remote collaboration

The Metaverse helps to provide ground for jobs which can be done in the real world by employing Augmented Reality and Virtual Reality. This feature helps to test the traffic flow and driverless car scenarios towards the construction site. Thus, this feature helps to eliminate the requirements for in-person meetings and business travel. This enables the project team members to collaborate remotely with other members and visualise their construction work in a 3D environment.

Enabling virtual careers

The Metaverse is capable of creating virtual employees which meet the demands of the virtual real estate jobs. This enables the landowners to sell the undeveloped land to the developers, which helps to create virtual experiences.

In this exclusive civil engineering video tutorial, you will learn how to prepare bar bending schedule of footing as well as work out the numbers of bars in footing.

For RCC slab, beam and column, it is required to provide reinforcement rods with several lengths according to drawings. Working out the length of straight length by adding crank and hooks is known as cutting length.

Bar bending schedule stands for a method of cutting and bending reinforcement bars into shapes. It comprises of an extensive lists which denote the location, mark, type, size, length, number and bending details of every bar in a reinforcement drawing of a structure. The method of listing is known as scheduling.

A BBS offer the followings :-

1. Member identification

2. Bar Mark 3. Shape of bending

4. Diameter of bar 5. Length of each bar 6. Total numbers of bars 7. Total length 8. Weight

In BBS of footing, you will get the numbers of bars with different lengths and sizes in both x axis and y axis along with the cutting length to complete a footing.

The calculation is done based on the following dimensions :-

Autodesk has given an open proclamation following the distribution of an open letter marked by a heavenly body of BIM-forward engineering firms criticizing the absence of improvement and increasing expenses of utilizing Autodesk Revit.

Prior this week, firms that incorporate Zaha Hadid Architects, Grimshaw, Rogers Stirk Harbor + Partners, and at any rate twelve others distributed an uncommon open letter taking a stand in opposition to the producer of the business standard BIM programming.

In their letter, the organizations take a stand in opposition to the inexorably troublesome assignment of using Revit to seek after plan development even with propelling creation and manufacture capacities while likewise featuring the way that the product's continually changing charge structure has constrained firms that depend on the product to persevere through extra expenses with little added advantage to their work or representatives.

Any individual who invests energy working in Revit has most likely encountered the basic disappointment of not having the option to achieve apparently fundamental undertakings without the requirement for some kind of tangled "workaround." Well, a portion of the main BIM-forward building rehearses on the planet, including Zaha Hadid Architects, Grimshaw, Rogers Stirk Harbor + Partners, and others have at long last had enough.

An open letter distributed by the exchange distribution AEC Magazine features these organizations taking a stand in opposition to an assortment of issues, both with Revit programming itself just as with Autodesk's business and permitting rehearsals.

The letter, as per the magazine, speaks to a phenomenal exertion, with AEC's editors expressing "In the thirty years we have been following the AEC innovation advertise and the 18 years wherein AEC Magazine has been devoted to the BIM procedure, we have never observed any semblance of this — an open letter from a network of national and global plan works on venting their apprehension at an innovation provider."