Crr

Articles, guides, and products tagged "Crr" — a combined view of every catalogue resource on this topic.

User guide

Real-world e-scooter range: an energy-budget model (P_drag + P_roll + P_grade + P_accel), derating from payload / wind / temperature / altitude / tire pressure / speed, and how to convert Wh into kilometres

Why a manufacturer's nameplate range is almost always optimistic by 20–60 %, and how to replace blind trust in a marketing number with your own model: the full power equation (P_drag + P_roll + P_grade + P_accel; formulation from Wilson «Bicycling Science» 4th ed. MIT Press and Martin et al. 1998 Journal of Applied Biomechanics 14(3):276–291), drivetrain efficiency η_motor × η_controller × η_battery ≈ 0.55–0.75 over the full chain, six derating axes from real-world conditions (payload +1 kg → +0.5–1 % Wh/km; headwind 5 m/s at 25 km/h → +5.1× P_drag and ~+50–80 % total power; temperature from +20 °C down to 0 °C → −20–30 % usable Wh; –10 °C → −30–40 %; –20 °C → −50 %; altitude — air density ρ(h) = ρ₀ exp(−h/8400 m) gives −12 % drag at 1000 m, but motor cooling deteriorates from rarer convective air; tire pressure below 80 % nominal → +20–40 % Crr per bicyclerollingresistance.com data), a Crr table for e-scooter tires (pneumatic 0.008–0.015; foam-filled 0.020–0.028; solid honeycomb 0.022–0.035 — Cambridge UP / Design Society 2024 comparison + Wilson MIT Press inflated-tire baselines), manufacturer range testing standards (EN 17128:2020 PLEV by CEN/TC 354, UNECE R136 for L1e/L3e categories, SAE J1634 Multi-Cycle Test for EV range, WMTC worldwide motorcycle cycle), a worked example with Wh-to-km conversion, and a route-planning protocol. ENG-first sources (0 RU): Wilson MIT Press, Martin 1998, Schwalbe rolling-resistance technical notes, Bicycle Rolling Resistance Crr database, Cambridge UP / Design Society 2024 e-scooter tire study, EN 17128:2020 (CEN/TC 354), UNECE R136 e-bike type approval, SAE J1634 Multi-Cycle Test, Battery University BU-502 low-temperature discharge, NREL 2018 EV temperature derating studies, NCBI PMC9698970 Li-ion at low temperature review.

14 min read

User guide

E-scooter tire engineering: contact patch, rolling resistance Crr, Kamm circle, rubber compound, and ETRTO / ISO 5775 / DOT FMVSS 119 / EN 17128 / UTQG standards

Engineering deep-dive into the e-scooter tire subsystem — parallel to the introductory «Suspension, wheels and IP-protection» reference: contact-patch physics (p_infl · A_contact ≈ W_load — hydrostatic balance), rolling resistance (Crr = F_rr / N — 80–90 % from hysteretic loss in viscoelastic rubber, 10–20 % from aero and bearings), Kamm/friction circle (F_lat² + F_long² ≤ (μ · N)² — fundamental simultaneous-grip limit), slip ratio and slip angle plus Pacejka Magic Formula (cornering stiffness Cα with 3–6° peak), hydroplaning physics (Vp = 10,35 · √p — NASA TN D-2056 1963 for aviation tires, ~ 0,5 × NASA-formula realistic for scooter pad geometry), polymer compound composition (NR natural rubber from Hevea brasiliensis, SBR styrene-butadiene 23–40 %, BR butadiene, halogenated butyl IIR/CIIR for tubeless airtight; silica vs carbon black filler with BET surface area + Si69 coupling agent; sulfur vulcanization vs peroxide; Shore A hardness 50–80 + Tg glass transition; magic triangle wet grip ↔ rolling resistance ↔ wear), casing construction (bias-ply 45–60° crossed vs radial 90° + circumferential belt — 30 % bigger contact patch in radial at 22 psi per Schwalbe testing; TPI 60/120/240+, aramid/nylon belt, hookless TSS vs UST), tread patterns (slick / semi-slick / multi-block off-road, evacuation grooves), tubeless sealant chemistry (NR latex + 1,3-propanediol + viscous polymer in Schwalbe DocBlue / Slime / Stan's NoTubes — temperature range −20…+60 °C), and full comparison matrix of ≥8 safety standards (ETRTO Standards Manual 2024 + ISO 5775-1:2023 Part 1 dimensions + DOT FMVSS 119 49 CFR § 571.119 endurance test + UTQG 49 CFR § 575.104 treadwear/traction/temperature + EN ISO 4210-7:2014 bicycle rims/tires test methods + EN 14781:2005 racing bicycle + EN 17128:2020 PLEV § tire pressure marking + ECE R75 Rev 2 motorcycle/L-category + SAE J1100); engineering ↔ symptoms diagnostic matrix; 8-point recap.

18 min read