Sanitary Negative Ion Pads Use for Heavy Flow
1. Women's sanitary padsBreathable Backsheet – special delthyrium be good to eliminate moisture & heat fast, prevent gynecological inflammation.
2. Back Adhesive & Environmental Released Paper – Made by chutty material, close and comfortable contact with human body, easy to peel off.
3. Individual Wrapped – Make good wrapped, sealed film bag keep the germ out, depollution.
4.Active oxygen and negative ion pads in period pad use
- OEM Brand
- China
- Around 25-35 days, after receiving 30% deposit.
- 50*40hq/month
Details
Products Description
Product Name | Dry max negative Ion sanitary pad (сухой макс прокладки женские) | |||
Size | 155/180/190/210/245/285/330/338/360/420MM | |||
Details | 1.Soft non-woven (Dry max technology) 2.Negative Ion chip (Antibacterial & remove odor) 3.SAP paper (Japan Sumitomo, heavy flow 200ML) 4.Airlaid paper (Won't disconnect) 5.Henkel Adhesive (Safe and healthy) 6.Breathable bottom layer 7.White Release paper (Degradable,Recyclable) 8.Leak guard wings | |||
Package | Zip lock bag, PE bag, Aluminum foil bag, Paper box ect | |||
Function | Stay dry over 8hrs, long lasting antibacterial |







1. Purported Functional Benefits period pad use;women's sanitary pads;Negative Ion Pads;sanitary pads for heavy flow
1.1 Advanced Odor Control Mechanism
Conventional pads rely on physical barriers and absorbent materials to manage menstrual odor. Anion pads claim a more sophisticated approach through:period pad use;women's sanitary pads;Negative Ion Pads;sanitary pads for heavy flow
Molecular breakdown: Alleged ability to decompose odor-causing ammonia and sulfur compounds at the molecular level
Air purification: Continuous emission of negative ions said to refresh surrounding air
pH stabilization: Claims of maintaining optimal vaginal acidity to prevent bacterial overgrowth
1.2 Enhanced Antibacterial Properties period pad use;women's sanitary pads;Negative Ion Pads;sanitary pads for heavy flow
Manufacturers propose multiple antibacterial pathways:
Electrostatic disruption: Negative ions purportedly interfere with bacterial cell membranes
Oxidative stress: Generation of reactive oxygen species targeting microorganisms
Physical barrier enhancement: Combination with silver nanoparticles in some premium variants
1.3 Therapeutic Effects on Reproductive Health period pad use;women's sanitary pads;Negative Ion Pads;sanitary pads for heavy flow
More ambitious claims include:period pad use;women's sanitary pads;Negative Ion Pads;sanitary pads for heavy flow
Menstrual pain alleviation through improved local circulation
Hormonal regulation via influence on endocrine function
Detoxification effects through enhanced cellular metabolism
2. Scientific Evaluation of Functional Claimsperiod pad use;women's sanitary pads;Negative Ion Pads;sanitary pads for heavy flow
2.1 Analysis of Odor Control Efficacyperiod pad use;women's sanitary pads;Negative Ion Pads;sanitary pads for heavy flow
Independent laboratory testing reveals:period pad use;women's sanitary pads;Negative Ion Pads;sanitary pads for heavy flow
Limited ion concentration: Measured anion output falls below thresholds required for significant odor neutralization
Comparative studies: Show marginal improvement over high-quality conventional pads in controlled settings
User-reported data: Indicate subjective perception of freshness rather than measurable reduction in odor molecules
2.2 Antibacterial Performance Assessment period pad use;period pad use;period pad use;period pad use;
Clinical findings demonstrate:
In vitro vs in vivo discrepancy: While showing some effect in petri dishes, real-world bacterial inhibition remains unproven
Spectrum limitations: Primarily affects certain aerobic bacteria with minimal impact on common vaginal microbes
Durability concerns: Antibacterial effect diminishes significantly after 2-3 hours of use
2.3 Examination of Therapeutic Claims
Medical experts conclude:
No measurable impact on prostaglandin levels or uterine contractions
Absence of hormonal pathway for external anion influence
Placebo effect likely accounts for perceived pain relief in some users
3. Material Science and Product Engineering
3.1 Core Anion-Generating Components
Tourmaline composites: Engineered mineral powders with enhanced piezoelectric properties
Germanium-doped fibers: Claimed to boost ion emission efficiency
Moisture-activated matrices: Hydrogel-based delivery systems for controlled release
3.2 Structural Integration Challenges
Particle migration: Risk of mineral component displacement during use
Moisture gradient effects: Uneven activation across pad surface
Long-term stability: Gradual loss of ionic potential in stored products
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