#Soil mechanics
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Blessed to be able to use my gifts and talents.
#visionarygrowingsolutions
#compost#soil#permaculture#biodynamic#atlanta urban ag#urban ag#biodiversity#soil creation#worms#vermicomposting#lettuce#soil mechanics#soil moisture#soil health#food systems#food sovereignty#visionary growing solutions#onions#kitchen garden#mulch#maurice small
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जानिये काली मिट्टी पर Crack free घर कैसे बनाएंगे | Explained by Prof. Surbhi Awasthi from SIRT
#youtube#Soil Types#black soil#black cotton soil#construction tips#crack free home#SIRT#ConstructionTips#Prof Surbhi Awasthi#build foundation on black soil#building a house#civil engineering#civil engineer#construction of a house on black cotton soil#soil mechanics#civil engineering tips#House construction Basic#House construction knowledge#Civil Tips for civil Engineers#civil engineering learning#cracks in house#House construction mistake
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What is Permeability and Why Should You Care?
Curious about soil permeability? It's crucial for construction, farming, and environmental protection. Discover how water flow through soil impacts everything from building safety to irrigation efficiency. Learn why understanding permeability matters!
When we talk about permeability in soil mechanics and fluid mechanics it plays a very important role in any construction, let’s not forget to understand it By the end of this article you will have a good understanding of what is permeability and how it helps you to overcome the problem in your daily life and in various exams (for example; GATE, ESE, and other various exams to get a better quality…
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The Importance of Discrete Element Modeling (DEM) Studies and What Problems It Can Solve
In today's rapidly advancing world of science and engineering, the need for accurate and efficient simulation tools has never been greater. One such tool that has gained significant prominence in recent years is Discrete Element Modeling (DEM). DEM is a numerical technique used to simulate the behavior of granular materials, such as powders, grains, and particles, on a microscale level. This modeling approach has proven to be invaluable in a wide range of industries, from pharmaceuticals to civil engineering. In this article, we will explore the importance of DEM studies and delve into the various problems it can solve, demonstrating its versatility and impact across diverse fields.
I. Understanding Discrete Element Modeling (DEM)
Before we dive into the importance of DEM studies, it's essential to grasp the fundamentals of Discrete Element Modeling itself. DEM is a computational technique that simulates the behavior of a large number of individual particles. Each particle is treated as a discrete entity and follows specific rules and interactions with other particles. These interactions are governed by various force laws, including contact forces, friction, and collision dynamics. By tracking the motion and interactions of these particles over time, DEM can provide valuable insights into the behavior of granular materials.
DEM Fundamentals
At the core of DEM lies the discrete nature of particles. Unlike continuum-based methods, DEM models materials as a collection of individual particles, each with its own properties and interactions. These particles move within a virtual space and collide with one another, creating complex dynamics that mirror real-world granular materials.
The essential components of a DEM simulation include:
Particles: These represent the individual grains or particles within the material.
Interactions: DEM defines the rules governing how particles interact with each other, including contact forces, friction, and restitution coefficients.
Time Integration: DEM calculates the motion of particles over discrete time steps, accounting for forces and interactions at each step.
Boundaries and Constraints: The simulation environment often includes boundaries and constraints to model specific scenarios accurately.
DEM Applications
The versatility of DEM has led to its adoption in various fields and industries. Some notable applications of DEM include:
Geotechnical Engineering: DEM is used to study soil mechanics, soil-structure interactions, and landslide prediction.
Pharmaceutical Manufacturing: DEM helps optimize drug formulation, tablet compression, and powder flow in pharmaceutical processes.
Mining and Minerals Processing: DEM is employed to understand the behavior of ore materials during crushing, grinding, and transport.
Food Processing: DEM studies can improve the design of food processing equipment and optimize the handling of food particles.
Civil Engineering: DEM is applied to simulate granular materials in construction, such as concrete mixing and soil compaction.
Powder Technology: In industries like powder metallurgy and ceramics, DEM assists in optimizing powder compaction and sintering processes.
Now that we have a fundamental understanding of DEM, let's explore the significance of DEM studies and the diverse range of problems it can solve across these industries.
II. The Importance of DEM Studies
DEM studies have become increasingly important in various fields, offering valuable insights, solutions, and advancements. Here, we will delve into the significance of DEM studies by examining the critical problems it addresses across industries.
Geotechnical Engineering
a. Soil Mechanics
In geotechnical engineering, understanding the behavior of soils is paramount for infrastructure design and construction. DEM studies provide insights into soil mechanics by simulating the interaction between soil particles under various loading conditions. This allows engineers to predict soil settlement, shear strength, and bearing capacity, all of which are crucial for designing stable foundations for buildings, bridges, and other structures.
b. Landslide Prediction
Landslides pose a significant threat in hilly and mountainous regions. DEM can simulate the movement of soil and rocks on slopes, aiding in landslide prediction and risk assessment. By analyzing factors like particle size, shape, and cohesion, DEM models can help identify areas prone to landslides and develop mitigation strategies.
Pharmaceutical Manufacturing
a. Tablet Compression
In the pharmaceutical industry, tablet compression is a critical process in drug manufacturing. DEM studies help optimize tablet formulation by simulating the compaction of powder blends. By varying particle properties and compaction conditions, researchers can predict tablet properties like hardness, friability, and dissolution rate, leading to improved drug formulations and reduced development costs.
b. Powder Flow and Mixing
Powder flow and mixing are crucial steps in pharmaceutical manufacturing. DEM models can simulate the flow of powders through equipment like hoppers, silos, and blenders. This enables the identification of potential flow problems, such as segregation or arching, and the design of equipment modifications to enhance powder handling and mixing efficiency.
Mining and Minerals Processing
a. Crushing and Grinding
In mining and minerals processing, the efficient comminution of ore materials is essential for resource extraction. DEM studies simulate the crushing and grinding of ore particles in crushers and mills, allowing engineers to optimize equipment design and operating conditions. This leads to improved energy efficiency and increased mineral recovery rates.
b. Material Handling
The transport of bulk materials within mining and processing facilities can be challenging. DEM helps analyze conveyor belt behavior, chute design, and transfer point performance. By studying particle trajectories and interaction forces, engineers can minimize material spillage, dust generation, and equipment wear, ultimately reducing operational costs.
Food Processing
a. Mixing and Blending
In the food processing industry, achieving uniform mixing and blending of ingredients is critical for product quality. DEM simulations of mixing processes help optimize equipment design and operating parameters. By visualizing particle distribution and movement, manufacturers can ensure consistent product quality and reduce waste.
b. Powder Handling
Powder handling in the food industry can be complex due to the diverse properties of food powders. DEM studies assist in designing equipment such as pneumatic conveyors and feeders. By predicting powder flow behavior and potential issues like segregation, DEM helps ensure the efficient and hygienic handling of food ingredients.
Civil Engineering
a. Concrete Mixing and Placement
In civil engineering, the proper mixing and placement of concrete are essential for constructing durable structures. DEM can model the behavior of concrete constituents, such as aggregates and cement particles, during mixing and placement processes. This allows engineers to optimize concrete mix designs and construction techniques, leading to improved performance and longevity of concrete structures.
b. Soil Compaction
Achieving adequate soil compaction is crucial for road construction, embankment construction, and foundation preparation. DEM simulations can replicate the compaction process, considering factors like soil particle properties, compactor geometry, and dynamic loading. Engineers can use DEM to optimize compaction equipment and procedures, ensuring the desired level of soil compaction is achieved.
III. Challenges and Advances in DEM Studies
While DEM has proven to be a valuable tool in addressing various problems, it is not without its challenges and limitations. Researchers continue to work on improving DEM techniques and expanding their capabilities. Let's explore some of the challenges and recent advances in DEM studies:
Computational Intensity
DEM simulations involving a large number of particles can be computationally intensive and time-consuming. To address this challenge, researchers have developed parallel algorithms and utilized high-performance computing clusters to accelerate simulations. Additionally, advancements in graphics processing units (GPUs) have significantly improved the efficiency of DEM simulations.
Particle-Particle Interactions
Accurately modeling complex particle-particle interactions, including adhesive forces and agglomeration, remains a challenge in DEM. Recent research has focused on refining contact models to better capture these interactions, allowing for more realistic simulations of cohesive and adhesive materials.
Scale-Up and Scale-Down
Scaling DEM simulations from laboratory-scale experiments to real-world applications can be challenging due to differences in length and time scales. Researchers are developing multiscale modeling approaches to bridge this gap, enabling more accurate predictions in practical engineering applications.
Integration with Other Simulation Techniques
In some cases, it is necessary to combine DEM with other simulation techniques, such as Computational Fluid Dynamics (CFD) or Finite Element Analysis (FEA), to study complex multiphysics problems. Integrating DEM with these techniques and developing robust coupling methods are active areas of research.
Calibration and Validation
Calibrating DEM models to match real-world behavior and validating simulations against experimental data are crucial for model accuracy. Researchers are developing techniques for parameter calibration and validation, including advanced imaging and tracking technologies for particle characterization.
GPU Acceleration and Cloud Computing
As computing power continues to advance, the use of GPUs and cloud computing resources has become more accessible for DEM simulations. These technologies enable researchers and engineers to perform more extensive and detailed simulations, opening new possibilities for problem-solving and optimization.
Machine Learning and AI Integration
The integration of machine learning and artificial intelligence (AI) with DEM is a promising avenue for advancing the field. These techniques can aid in data analysis, model parameterization, and real-time decision-making in DEM simulations.
IV. Conclusion
Discrete Element Modeling (DEM) has emerged as a powerful and versatile tool for simulating the behavior of granular materials in various industries. Its ability to address critical problems in geotechnical engineering, pharmaceutical manufacturing, mining, food processing, and civil engineering has led to its widespread adoption and continued development.
DEM studies have provided engineers and researchers with valuable insights into the behavior of granular materials, enabling them to optimize processes, design equipment, and make informed decisions. Despite its challenges, ongoing advancements in computational methods, particle interactions, and multiscale modeling are expanding the capabilities of DEM and enhancing its accuracy.
As industries continue to evolve and face new challenges, DEM will likely play an increasingly vital role in solving complex problems and driving innovation. Its integration with emerging technologies like machine learning and AI holds promise for further enhancing its capabilities and broadening its application areas.
In conclusion, Discrete Element Modeling stands as a testament to the power of computational simulations in shaping the future of science and engineering. Its importance in solving real-world problems cannot be overstated, and its continued development promises to revolutionize the way we understand and manipulate granular materials in the years to come.
V. The Capabilities of Newton DEM Software
In the realm of Discrete Element Modeling (DEM), the choice of software is paramount to achieving accurate and insightful simulations. One software package that has gained recognition for its capabilities and versatility in solving complex granular material problems is Newton DEM Software. In this section, we will explore the unique features and advantages that Newton DEM Software offers in the context of DEM studies.
High-Performance Simulations
Newton DEM Software is renowned for its high-performance capabilities. It leverages advanced algorithms and efficient parallel processing to handle simulations involving a vast number of particles seamlessly. This makes it suitable for tackling large-scale industrial problems, such as those encountered in mining, pharmaceuticals, and construction.
Comprehensive Material Models
One of the standout features of Newton DEM Software is its extensive library of material models. It provides users with the flexibility to simulate a wide range of granular materials, including various shapes, sizes, and properties. This enables researchers and engineers to model materials accurately, whether they are dealing with cohesive powders, irregularly shaped particles, or even mixtures of different materials.
Advanced Contact Mechanics
Accurate modeling of particle-particle interactions is crucial for DEM simulations. Newton DEM Software employs advanced contact mechanics algorithms to precisely capture complex interactions, such as rolling, sliding, and friction. Additionally, it allows users to define custom contact models, ensuring that simulations closely mirror real-world behavior.
Multiscale Modeling Capabilities
Newton DEM Software recognizes the importance of bridging the gap between laboratory-scale experiments and practical engineering applications. It offers multiscale modeling capabilities that enable users to perform simulations at various length and time scales. This flexibility is particularly valuable when dealing with materials that exhibit different behaviors under different conditions.
Coupling with Other Simulation Techniques
Many real-world problems require a multiphysics approach, combining DEM with other simulation techniques like Computational Fluid Dynamics (CFD) or Finite Element Analysis (FEA). Newton DEM Software supports seamless coupling with these techniques, allowing users to investigate complex interactions between granular materials and fluid flows or structural elements.
User-Friendly Interface
Usability is a key consideration in software tools, and Newton DEM Software excels in this regard. Its user-friendly interface streamlines the simulation setup and visualization processes, making it accessible to both seasoned researchers and newcomers to DEM. The software provides an intuitive environment for defining particle properties, boundary conditions, and analysis parameters.
Visualization and Data Analysis
Newton DEM Software offers robust visualization and data analysis tools. Users can visualize simulation results in real-time, enabling immediate insights into particle behavior. Additionally, the software provides tools for post-processing and data analysis, allowing users to extract valuable information from their simulations and make informed decisions.
Integration with Machine Learning and AI
To stay at the forefront of technological advancements, Newton DEM Software has embraced the integration of machine learning and artificial intelligence (AI). Users can leverage these capabilities to enhance their DEM simulations, from automating parameter tuning to making real-time predictions based on simulation data.
Scalability and Cloud Computing
Recognizing the growing demand for scalability and accessibility, Newton DEM Software is compatible with cloud computing platforms. This facilitates the execution of resource-intensive simulations on remote clusters, reducing computational bottlenecks and accelerating research and development efforts.
Comprehensive Support and Training
Effective use of DEM software requires proper training and support. Newton DEM Software provides comprehensive training materials, documentation, and customer support to assist users at every stage of their simulations. This ensures that users can leverage the full potential of the software and achieve meaningful results.
Incorporating Newton DEM Software into DEM studies enhances the capabilities of researchers and engineers, enabling them to tackle increasingly complex granular material problems across a spectrum of industries. Its combination of high-performance simulations, advanced contact mechanics, multiscale modeling, and integration with other simulation techniques makes it a valuable asset for those seeking to push the boundaries of DEM.
In conclusion, the capabilities of Newton DEM Software exemplify the ongoing evolution of computational tools in solving real-world problems. Its user-friendly interface, extensive material models, and support for multiscale modeling and coupling with other simulation techniques empower researchers and engineers to explore the behavior of granular materials with unparalleled accuracy and efficiency. As industries continue to advance, Newton DEM Software stands as a reliable and indispensable tool in the realm of Discrete Element Modeling.
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Little P.Eng. for Discrete Element Modeling (DEM) Services: Unveiling the Power of Simulation
Little P.Eng. for Discrete Element Modeling (DEM) Services
Tags:
Artificial Intelligence
Discrete Element Modeling
Mixing
Geotechnical Engineering
Granular Materials
DEM Studies
Simulation
Particle Interaction
Pharmaceutical Manufacturing
Mining
Food Processing
Civil Engineering
Soil Mechanics
Landslide Prediction
Tablet Compression
Powder Flow
Crushing
Material Handling
Concrete Mixing
Soil Compaction
Computational Intensity
Particle-Particle Interactions
Multiscale Modeling
Machine Learning
GPU Acceleration
High-Performance Computing
Newton DEM Software
Contact Mechanics
Cloud Computing
Validation
Bulk Material Handling & Processing
Engineering Services
Located in Calgary, Alberta; Vancouver, BC; Toronto, Ontario; Edmonton, Alberta; Houston Texas; Torrance, California; El Segundo, CA; Manhattan Beach, CA; Concord, CA; We offer our engineering consultancy services across Canada and United States. Meena Rezkallah.
#•#Artificial Intelligence#Discrete Element Modeling#Mixing#Geotechnical Engineering#Granular Materials#DEM Studies#Simulation#Particle Interaction#Pharmaceutical Manufacturing#Mining#Food Processing#Civil Engineering#Soil Mechanics#Landslide Prediction#Tablet Compression#Powder Flow#Crushing#Material Handling#Concrete Mixing#Soil Compaction#Computational Intensity#Particle-Particle Interactions#Multiscale Modeling#Machine Learning#GPU Acceleration#High-Performance Computing#Newton DEM Software#Contact Mechanics#Cloud Computing
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it was lab day and i rewarded myself opening a new volume
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me being a stem girlie: 😊
me also being a geology and soul mechanics girly: 🗿
BESTIE tell me more !!
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chemistry is a fucking nightmare… every week is me screaming and crying and kicking and frothing and flailing through the problem set, and then i get an A.
#HELP.#i no longer have any clue what is happening#but we are GETTING through it#i hate chem i hate chem i HATE it#i know this is all really interesting to some people and i am SO happy for those people#but this is simply not relevant to my life#i know that chemistry is CONCEPTUALLY relevant for everyone and i do understand the basic mechanics#but all these formulas… all these conversions… fucking significant figures…#NO ONE should have to know this unless they want to or it’s very directly their job#i can learn about soil pH and its implications for different types of plant life without knowing all this#at LEAST this is the only chem course i’m required to take#because JESUS christ.#it’s not THAT bad but also i did want to rip all of my hair out earlier
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my laptop broke down and so did all my autocad files i had there. im gonna kill myself
#i don't have enough time to redo anything#yesterday night i wanted to open ky laptop to compress the final file for printing and finish another project to also compress it#and that's when i noticed that my laptop broke down#literally at the finish line#whole semester of working so damn hard to have everything perfect and on time#and now i have to fail those two subjects because i can't submit the project#and i don't have a spare laptop with that program to redo it#though even if i did there's not enough time#my friends of course won't help because they have their own things#no one remembers the file for soil mechanics that i spend tons of hours doing but they just swapped the data and had the project complete i#half an hour. no one remembers and no one cares. and i didn't even get a single thank you#now im left without a computer to work on and without anyone who can help me#really loving it here#it's always moments like this that remind me that my friends don't give a shit about me like at all#i don't even have anyone i can hug to feel better
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Find your perfect brick making machine today
SnPC Machines, factory of brick making machine
Find the perfect brick making machine and Grow your brick kiln business with fully automatic brick making machine which produce brick about three times faster as compared to manual production. This machine revolutionize construction industry with its speed and reduction in 45% cost. This machine is eco-friendly as well as it requires one-third of water for its working. Some of these models are BMM-404, BMM-310, BMM-160. These machines produce brick moving on wheel like a moving truck. Kiln owner can produce brick anywhere anytime independently with minimum labour. Customer can order our machine from any country, state or can visit us for their own satisfaction.
#Snpc Machines#perfect brick making machine#red soil brick#clay brick making machine#SnPC#brick making machine#building material#construction machinery#mechanical engineer#metal work#Kharkhuda#Haryana
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bc of donos i had some of my own savings left over, so i got palaeo pines as a little treat
#paleo pines#IT'S VERY CHARMING and has a surprising amount of mechanics?#for such a simple seeming game#like every Dino species has their own food type that they prefer#and then also individual dinos have their own fav food that may or may not go against the norm for their species#there's also different soil types for different plants
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i was being SO good at work yesterday even though I had to read sentences about measuring how many blows it takes to get six inches of penetration
#reading about soil mechanical properties#telling tumblr bc the pressure has to be released somewhere
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I joke about how much playing OFF as my first Proper video game permanently screwed up how I viewed the player & player character relationship, but sometimes i forget that right up until i habitually refer to the player as the puppeteer.
#idk#i think it also primed me to see the game world and story events as whole and separate from player interaction#no more influenced by the player than a chose your own adventure novel#Then spending an actual decade deeply invested in learning about the mechanics and art of game making#the software and knowhow and logistics and people doing things#not the end product#kinda also primed me to see the underlying mechanics of the work before the actual work#less seeing the tree and missing the forest and more intense examination of soil bacterial colonies before noticing the tree#ANYWAYS IM NOT DOING THE FUCKING LUFT BALLOON RANT.#Its lived in me ever since that fucking video.#God 'oh (redacted) is such a good documentarian and hes sooo insighful!'#the mans a dumbass who spent like 40 minutes confused why a game from a now bankrupt studio came out weird.#its because they ran out of money and making games is expensive and Hard and what aounds good on paper might not be good#when the eviction notice for your studio gets posted
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this prof is such a sensory nightmare everyone is completely checked out
#combination of being extremely loud completely unintelligible and talking about soil mechanics#so his voice just registers as Noise#also he loves talking over full volume videos. i have to step out almost every class
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as i’m sure everyone could tell, i’m a huge nerd who likes analyzing media and one criticism i ways remember sticking out is like “is your female character suffering in a way that is attractive to men” ie that scene in the queen’s gambit where she’s smoking and drinking and having a breakdown but she did her makeup and hair and is wearing a sexy nightgown and it was something i think about in general, bc it is part of a larger conversation of the way women are written as fantasies for men and not as fantasies for the women they ostensibly represent (and it’s been on my mind bc i’m rereading asoiaf & there’s an excellent scene where brienne is crying and feels like a failure and thinks about if jaime would find her beautiful now and would want to rescue her, and it’s a very Excellent dissection of this concept done in the PoV of, imo, one of the best written female characters in literature period) (everyone should read asoiaf through at least once it really is That Good)
but also i spent an embarassing amount of time like hysterically crying while wearing underwear, an oversized tank, and pink nipple pasties while getting high af so CLEARLY, sometimes, u r just accidentally sexy while having a breakdown lmao. altho i was also shoveling copious oatmeal into my face while this was happening, which is decidedly unsexy bc there’s no real way to sexily eat gruel so that’s a point for feminism, actually.
#eating over sweetened farina in the dark on your couch while wearing lingerie as praxis#this is not a cry for help i just need everyone to know i like to analyze my own decisions like i’m a fictional character. it is one of my#more healthy coping mechanisms to be honest. aksjsjjs. anyways would love a one handed ken doll looking beast a la batb archetype#soiled knight kingslaying sister fucking mother fucker to slap someone upside the mouth for calling me ugly & then walk into a trap no#questions asked because i asked him to come with me. and then we can fuck at winterfell or whatever. he is not allowed to leave me for his#sister tho that is show only nonsense and i rebuke it.
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A personal test of what a "good game" is, is if I'm so invested in the game that I feel the need to open excel and start min-maxing it
#lmao shut up haz#and I will! I mostly play management games so minmaxing doesnt really break the game much#If I had more free time I've been wanting to build a factorio AI that can do TAS runs on random seed maps.#I know I'd be a god awful gamedev because I'd only make games that require you to read datasheets and scientific papers to play them#I've wanted to make this farming sim for ages that actually has soil nitrates + microbe + bug mechanics but its far outside my skillset
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