Latest posts tagged with #ExtremeManufacturing on Bluesky
Mission impossible through Extreme Manufacturing: breaking through the constraints of time and space for humanity
This study presents #ExtremeManufacturing as a paradigm using unconventional science, cross-scale fabrication, #AI, and multidisciplinary integration to surpass limits, enabling ultra-precise production and innovations from #nanotech to #DeepSpace.
#IJEM: doi.org/10.1088/2631...
Triboelectric nanogenerators: from nano energy to extreme manufacturing
An overview of advanced #ExtremeManufacturing strategies that enhance the performance & durability of #TriboelectricNanogenerators for #EnergyHarvesting & intelligent sensing in extreme environmental conditions. @AjouUniv
#IJEM #OpenAccess: doi.org/10.1088/2631...
Last year, IJEM's impact factor grew to 21.3, reinforcing IJEM’s position as the leading journal for engineering and manufacturing research. Even better, because IJEM is an open access journal, you can explore all articles for free 👉https://ow.ly/SzyK50Y8MCk
#OpenAccess #ExtremeManufacturing
4D printing with self-adjustable gas pressure enables up to 11 stable shape configurations and a temperature memory effect, as reported in #IJEM.
🔗 doi.org/10.1088/2631-7990/add226
#4DPrinting #SmartMaterials #ShapeMemory #GasDrivenActuation #AdditiveManufacturing #ExtremeManufacturing
#IJEM's latest animated cover on “ #Biomimetic inner helicoidal #microfluidics with enhanced capillary rise for step liquid lifting mimicking transpiration” is now online!
More details at iopscience.iop.org/article/10.1...
#ExtremeManufacturing #OpenAccess #3DPrinting #Microfabrication
🧲 How do magnetic fields shape tiny structures? Research in #IJEM explores precise control of magnetically responsive surfaces—useful for micro-robotics and advanced manufacturing.
Intrigued? Dive in!
#ScienceExploration #ExtremeManufacturing #OpenAccess
IGO-based 2-line 2T0C #DRAM enables multi-bit #storage with refresh times up to 15,000× longer than Si 1T1C DRAM.
🔗 In #IJEM: doi.org/10.1088/2631-7990/add7a3
#InGaO #MemoryDevices #3DMemory #Nonvolatile #OxideSemiconductors #SemiconductorTech #μFE #PBTS #ExtremeManufacturing
🎯TOPICAL REVIEW In #IJEM
Low-temperature-field-assisted 3D printing creates cross-scale scaffolds that replicate tissue architecture from nano to macro.
🔗 doi.org/10.1088/2631-7990/ad996d
#TissueEngineering #Biofabrication #Biomaterials #IceTemplating #3DPrinting #ExtremeManufacturing
🧠 Researchers at developed a #bioengineered neural network ( #BENN) that combines #3D-bioprinting and electrical stimulation to model #brain-like structures and visualize #alcohol-induced #neurodegeneration.
🔗 doi.org/10.1088/2631-7990/add632
#BrainModel #IJEM #OpenAccess #ExtremeManufacturing
How do you power a robot 10,000 meters #underwater?
With a battery that bends, seals, and recharges below sea level.
This #IJEM review dives deep into the future of Li batteries for ocean tech.
🔗 doi.org/10.1088/2631-7990/ad97f6
#UnderwaterRobotics #ExtremeManufacturing #EnergyStorage #OpenAccess
🎯TOPICAL REVIEW in #IJEM
A modular strategy with autologous #bioreactors charts a promising course for building transplantable #bioengineered #organs.
🔗 doi.org/10.1088/2631-7990/ad92c9
#OrganTransplant #TissueEngineering #Biomanufacturing #MedicalDevices #ModularBiotech #ExtremeManufacturing
🎯TOPICAL REVIEW in #IJEM
"Laser machining fundamentals: #micro, #nano, #atomic and close-to-atomic scales"
🔗 doi.org/10.1088/2631-7990/acb134
#OpenAccess #ExtremeManufacturing #technology #nanotech
Flexible membrane #sensors enable smarter, smaller, and more adaptive technologies across #wearables, #robotics, and healthcare.
🔗 Read the review in #IJEM
doi.org/10.1088/2631-7990/ad9787
#OpenAccess #FlexibleElectronics #SmartSensors #WearableTech #ExtremeManufacturing #SoftRobotics
🧠 A new review in @intjextremmanuf.bsky.social highlights how #macrophage-triggered #angiogenesis supports nerve regeneration and compares three strategies to engineer vascularized nerve #scaffolds.
🔗 doi.org/10.1088/2631-7990/ad92c8
#OpenAccess #IJEM #ExtremeManufacturing #Neurovascularization
Stable 3D quantum dot #nanostructures with sub-100 nm resolution and 600 °C heat resistance.
Now possible via hybrid laser lithography.
#OpenAccess in #IJEM
🔗 doi.org/10.1088/2631-7990/adaab1
#3DPrinting #Nanofabrication #AdditiveManufacturing #LaserFabrication #ExtremeManufacturing #Nanophotonics
🔍 Highly Cited Article in #IJEM:
"Nontraditional energy-assisted mechanical machining of difficult-to-cut materials and components in aerospace community: a comparative analysis"
doi.org/10.1088/2631-7990/ad16d6
#Aerospace #Manufacturing #ExtremeManufacturing
Can #sensors power themselves using your body’s movement, heat, or voice?
#IJEM's latest review explores the future of self-powered wearables.
doi.org/10.1088/2631-7990/ad8735
#EnergyHarvesting #SelfPoweredDevices #WearableTech #FlexibleSensors #SmartHealthcare #ExtremeManufacturing #WearableTech
For the first time, a method of electrochemical cutting with a flexible electrode for controlled online deformation ( #FECC) is introduced in #IJEM, enhancing flexibility in machining complex #aero-engine components.
doi.org/10.1088/2631-7990/ad8734
#FlexibleElectrode #Blisk #ExtremeManufacturing
Stimuli-responsive actuators are powering soft underwater #robots, this #IJEM review highlights advances and key challenges in material design, environmental adaptability, and system integration.
Open Access:👉 doi.org/10.1088/2631-7990/ad9fbb
#ExtremeManufacturing #SoftRobotics #UnderwaterTech
#Plasma-based atom-selective etching ( #PASE) enables fast, damage-free, atomic-level #polishing of β-Ga₂O₃—reducing roughness from 14.8 nm to 0.057 nm in 120 s, with a removal rate of 20.96 μm/min.
Open Access: 👉 doi.org/10.1088/2631-7990/ad8711
#IJEM #ExtremeManufacturing #Microfabrication
A nonuniform 3D compound eye design enables flat #CMOS integration and on-chip monitoring for microfluidics and #robotics.
Open Access in #IJEM:👉 doi.org/10.1088/2631-7990/ad8738
#ExtremeManufacturing #AdditiveManufacturing #CompoundEye #Microfluidics #3DPrinting #Bioinspired
Magnetoresistive Random Access Memory ( #MRAM) is emerging as a key solution for next-gen memory—offering fast, energy-efficient, and reliable performance from cache to embedded systems.
Read the full review in @intjextremmanuf.bsky.social
: 👉 doi.org/10.1088/2631-7990/ad87cb
#ExtremeManufacturing
#Titanium scaffolds with 45 vol% solid loading, ~74% porosity, and 70 MPa strength were made via powder modification and #DLP printing, featuring multiscale pores and ~72% better slurry curing.
More in #IJEM: doi.org/10.1088/2631-7990/ada979
#ExtremeManufacturing #3Dprinting #AdditiveManufacturing
A recent review in #IJEM explores advancements in #SiC ceramic #grinding, highlighting low-damage methods and future directions, including multi-scale simulations and hybrid energy field machining.
Open Access: doi.org/10.1088/2631-7990/ada218
#ExtremeManufacturing #Ceramics #AdvancedManufacturing
In a recent review in #IJEM, researchers discuss ink-jetting printing for conformal additive manufacturing, focusing on its benefits and challenges in electronics, energy devices, and biology.
Open Access: doi.org/10.1088/2631-7990/ada8e6
#ExtremeManufacturing #InkJetting #3DPrinting
In #IJEM, researchers introduce textile hybrid electronics with vertical conductive paths below 0.1 Ω for flexible health monitoring and fatigue tracking.
Open Access: doi.org/10.1088/2631-7990/adb5dd
#ExtremeManufacturing #TextileElectronics #WearableTech #HealthMonitoring #Bioelectronics
#Diamond coatings offer great properties but are limited by surface roughness and friction.
In #IJEM, researchers from NUAA and @ tuda.bsky.social developed a method to reduce friction by 63%-72% and wear by 59%-67%.
#ExtremeManufacturing #DiamondCoating
www.eurekalert.org/news-release...
In #IJEM, researchers reveal how micro- and #nano-patterning techniques enhance flexible #sensors for improved sensitivity and data density in applications like environmental monitoring and human perception.
Open Access: doi.org/10.1088/2631-7990/ada857
#ExtremeManufacturing #LaserWriting
📢 New in #IJEM: Researchers from Sungkyunkwan University and Yonsei University unveil advanced decoupled sensory systems for wearables—featuring #AI, #3D design, and #micro/nanofab to reduce bending, heat & humidity interference.
Open Access: doi.org/10.1088/2631-7990/adbc4e
#ExtremeManufacturing
New research in #IJEM combines high-throughput 3D printing and machine learning to cut porosity in #316L stainless steel from 0.57% to <0.1%, and extends the method to #AlSi7Mg.
Open Access: doi.org/10.1088/2631-7990/adbb96
#ExtremeManufacturing #MachineLearning #AdditiveManufacturing #3Dprinting
